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RFID ComponentsInductive Components
EMC FiltersPLC Components
XI Edition, October 2016
LEGAL DISCLAIMER
“All the information contained in this catalogue is for general guidance on any matters of interest. As such, it should not be used as a substitute for consultation with professional Premo technicians or competent advisers. Before making any decision or taking any action, you should consult a Premo professional for updated and detailed information.” “Given the changing nature of the electronic market, and the inherent hazards of publications and communication, there may be omissions or inaccuracies in the information contained in this catalogue. Furthermore all the information and characteristics contained can be changed without any prior warning.” “All products contained in this catalogue have been designed by Premo S.L. and the unauthorized copy of them is strictly prohibited.” “All images on this catalogue, including text, photos, illustrations, graphs, tradenames, logos and components are fully owned or under licence of Premo Group and are protected by copyright, trademark rights and/or any other intellectual property rights. The (intellectual) property right is in no way transferred to the (legal) entity that has access to this catalogue.”“All products in this catalogue are sold under the General Terms and Sales Conditions of PREMO S.L. available at www.grupopremo.com”“PREMO 3DC is protected under spanish patent number: P200102446”“PREMO planar transformers are protected under Spanish patent numer: P200201465”3DCoil Cap Adaptor is protected under Spanish patent number: W20130038883DCoil Split Base is protected under Spanish patent number: EP14380009Alma Flexible Antenna is protected under Spanish patent number: EP163800043DCoilTM, 3DPowerTM, 4DCoilTM, PREMOTM are registered TRADE MARKS of PREMO SL protected under Spanish and International Trade Mark Association. Blocking filter is protected under Spanish patent number: ES1134166U
4All datasheets are available in pdf to download in our website. www.grupopremo.com/tiendas
3DCoil TM, 3DPowerTM, 4DCoilTM, PREMOTM are registered trade marks of PREMO SL.
CONTENTSRFID COMPONENTSRFID TRANSPONDERSIntroduction
Rapid Guide
Single Axis Transponder Inductors
TP0502 - SMD Transponder Coil
TP0602 - Micro SMD Hard Ferrite Transponder Inductor
TP0702 - SMD Hard Ferrite Mechanically Improved Transponder Inductor
TP0702U - SMD Transponder Coil
TP0702UCAP - SMD Transponder Coil
TP0702CAP - SMD CAP Hard Ferrite Mechanically Improved Transp. Inductor
TR1102 - SMD Ferrite Transponder Inductor
TR1102CAP - SMD CAP Ferrite Transponder Inductor
SDTR1103 - SMD Drop Resistant Transponder Coil
SDTR1103CAP - SMD Drop Resistant Transponder
SDTR1103EM - SMD Transponder Coil
SDTR1103-HF1 - SMD Drop Resistant Transponder Coil High Frequency
ZC1003 - 1003 SMD Z AXIS COIL Low Profile
ZAC1203 - Z AXES SMD Z AXIS AIR COIL Low Profile
General Specifications Transponder Inductors SMD Packing
3-Axes Transponder Inductors (3DCoils)TM
3DC06ISO - SMD 3D Coil 7x7x2.3 mm
3DC09LP - SMD 3D Coil 9.5x9.5x3.1 mm
3DC11LP - SMD 3D-Coil Low profile (13x11.6x3.15 mm)
3DC11LP - AOI - SMD 3D11 Coil Low Profile AOI 13X11.6X3.45 mm
3DC11LP - AOIF - SMD 3D11 Coil Low Profile AOI (foam option) 13X11.6X4.7 mm
3DC11LP - AOIC - SMD 3D11 Coil Low Profile AOI (cap option) 13X11.6X4.15 mm
3DC11LPCAP - SMD CAP 3D Coil Low profile
3DC11F - SMD 3D Coil Low profile
3DC11AOI-05DR - SMD 3D Coil 13x11.6x3.9mm (4.91-7.2mH) Half Drumcore
3DC11-DR - SMD 3D Coil Drumcore 13x11.6x3.9mm (4.91-7.2mH)
10
14
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
36
37
38
39
40
41
42
43
44
45
5All datasheets are available in pdf to download in our website. www.grupopremo.com/tiendas
CONTENTS
3DC12EM - SMD 3D Coil 12.9 x 12.5 x 3.65mm (4.91-7.2mH) Epoxy Moulding
3DC1515 - SMD 3D Coil (17.5x15.5x3.8 mm)
3DC15CAP - SMD CAP 3D Coil
3DC15F - SMD 3D Coil 17.5x16.0x4.0 mm MAX
NFC antennas
TC0502HF - NFC SMD antenna 5.2x2.4x2.7mm MAX
SDTR1103 - HF2 - SMD Transponder for NFC applications
3DC15HF - SMD 3D Coil 17.5x16.0x4.0 mm MAX
4DC15NF - 4D-COIL 125kHz-PKE, 13,56MHz-NFC
2D1D15 - SMD 3D Coil 17.5x16.0x4.0 mm MAX
ZC1003HF - SMD Z axis for NFC applications 10 x 10 x 3.2 mm
EMITTER ANTENNASIntroduction
Rapid Guide
Uncoated Antennas
KGEA-WT - Keyless Go Emitter Antenna Winding Heat Shrink Tube
PKE Emitter Antennas
SEA - SMD Small Emitter Antenna
KGEA-SMD - Keyless Go Emitter Antenna SMD
KGEA-TH - Keyless Go Emitter Antenna Through–Hole version
KGEA-BFCR - Keyless Go Emitter Antenna Housing Plastic with Resin and
Outside Connector
KGEA-BFCWX - Keyless Go Emitter Antenna Potted with Unsealed/Sealed
Connector
KGEA-BFCAM - Keyless Go Emitter Antenna Low Profile Potted Unsealed/
Sealed Connector
Overmoulded Antennas
KCA - Keylock Cylinder Antenna
Ligthning detector Antennas
KGEA-HB - LF interior antenna shape h bridge
46
47
48
49
50
51
52
53
54
55
57
58
61
62
63
64
65
66
67
68
69
6 All datasheets are available in pdf to download in our website. www.grupopremo.com/tiendas
CONTENTS
Long range Antenna
KGEA-AF and KGEA-AFC - Long Range Flexible Antenna LF for smart entry system
TELECOILSIntroduction
TC0502 - SMD Telecoil 5.1x2.3x2.6mm
TP0602-TC - Micro SMD Hard Ferrite Telecoil
TC0902 - SMD Telecoil 9x1.5x2mm
TC1102 - SMD Telecoil 10.5x1.4x2mm
General Specifications Telecoil Packing
INDUCTIVE COMPONENTSINDUCTORS/ CHOKES
Linear Chokes
PL - Linear Choke
Common Mode Chokes
Introduction
HC - Common Mode Chokes with Nanocrystalline Cores
PC - Common Mode Chokes with Ferrite Cores
PM - Common Mode Chokes with Ferrite Cores
High Power SMD Chokes
PB1212 - Power Cube
PB2016 - Power Cube
UC - Power Micro Cube Chokes
70
73
74
75
76
77
78
80
82
84
89
93
98
99
100
7All datasheets are available in pdf to download in our website. www.grupopremo.com/tiendas
CONTENTS
POWER TRANSFORMERSPCB Planar Transformers
Introduction
Schematics Topologies for DC/DC&AC/DC Planar Transformers
Planar Transformers Rapid Guide
NS - Planar Transformers for High-Current Telecom Applications
High Power Overmolded Planar Transformers
Introduction
HPT - High Power Planar Transformers for HV Systems
GHPT - 15KW Power Planar Transformer for HV Systems
HPTR - Low Size Planar Transformer for HV Systems
Power Components for HEV Onboard Automotive SMPS
Introduction
BCT - Automotive EV/HEV Isolated 3.3kW Battery Charger Transformer
BCIM SERIES - Automotive EV/HEV Isolated 3.5kW Battery Charger Integra-
ted Magnetics
DCDC SERIES - Power Transformers for Automotive Systems
HPC - High Power Planar Chokes for HV Applications
PFC - Power Factor Correction Chokes
PFC SERIES - New
NPT - Power Transformers for HEV Systems
Pulse Transformers
Introduction
GDAU - Isolated SMD Gate Drive Transformer up to 150Vµs
CURRENT SENSINGCurrent Transformers
CM - SMD Current Transformer Up to 6A
CS - SMD Current Transformer Up to 15A
CSAU - Automotive HEV Current Transformer up to 35 Amps
CS35A - Automotive EV/HEV Isolated SMD Current Transformer up to 35Amps
CWP-CWL - High Precision 50Hz KWh-meter Current Transformer
CV-CH - SMPS High Isolation (2500Vmin) Current Transformers
105
109
110
111
113
114
115
117
118
120
121
124
129
131
135
137
139
141
145
146
147
149
150
152
8 All datasheets are available in pdf to download in our website. www.grupopremo.com/tiendas
CONTENTS
EMCPREMO EMC FILTERSIntroduction
Rapid Guide
Three-Phase Filters
FVDT – Three-Phase Filters for Frequency Converters without Neutral (6-900A)
FVSB - Three-Phase Filters One Stage Filter (7-180A)
DPF - DIN Rail PLASTIC Filter for Industrial Application (25-50A)
Three- Phase + Neural Filters
PFT - Three-Phase + Neutral Filters for General Use (3-150A)
DPFN - DIN Rail PLASTIC Filter for Industrial Application (25&35A)
PLC ACCESSORIESInductive Couplers
MICU 300A - Medium Voltage Inductive Coupling Units
MICU 300A-S/LF - MV ICU-300A / Low Freq. (30-500kHz)
MICU 300A OH/LF - MV ICU 300A Low Freq.(30-500kHz) Outdoor Overhead
MICU 300A-W/LF - MV ICU/Low Freq. (30-500kHz) Underground WR Immersion
Blocking Filters
BF (PLC BLOCKING FILTERS-SINGLE PHASE)
155
158
159
162
164
166
164
176
178
179
180
181
RFID TRANSPONDERS
Single Axis Transponder Inductors 3-Axes Transponder Inductors (3DCoils)
NFC antennas
10
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or IntroductionPREMO RFID Components is a leading manufacturer in transponder inductances for SMD assembly processes focused mainly on automotive market applications, animal identification and industriallogistics applications. In 1995 PREMO RFID Components launched the first transponder inductor in SMD for the automotive market. His strong bet for continuous development and innovation leads PREMO RFID Components to introduce in 1999 the first isotropic 3D coil for KES in the world and in 2003 a new chip-on-ferrite solution for animal ID. Innovative products with the latest available technologies and higher possible quality incorporated to revolutionary designs make our competitive difference.Most of transponders produced in PREMO RFID Components work at 125 kHz for automotive applications and at 134 kHz for animal ID applications. 125-134 kHz belongs to the Low Frequency range for a common classification of transmission frequencies in RFID (Radio-Frequency Identification):- Low Frequency (30 kHz - 300 kHz).- High Frequency/Radio Frequency (3 MHz 30 MHz).- Ultra High Frequency (300 MHz - 3 GHz).- Microwaves (>3GHz).
125 kHz is a suitable frequency for RFID applications classified into the worldwide ISM frequency ranges (Industrial-ScientificMedical). In this catalogue you’ll find a broad range of standard transponder inductors for RFID applications to help you accomplish your electrical mechanical and functional targets. Besides, customized products are designed and prototypes built in our R&D department according to customer requirements for those products not fitting into the standard product design because of special features needed or application requirements.
A RFID systemRFID is a method of wireless data interchange by using an electro-magnetic field as media. The use of RFID in tracking and access applications first appeared during the 1980s; RFID quickly gained attention because of its ability to track moving objects.A RFID system always has two elements: - The transponder, which is located on the object to be identified.- The interrogator or reader, which, depending upon design and the technology used, may be a read or write/read device.The transponder (tag) normally consists on a coupling element and an electronic microchip which processes the data transmitted and/or received in the communication reader-transponder. A reader typically contains a radio frequency module (transmitter and receiver), a control unit and an antenna. PREMO RFID Components can supply both elements and design them in order to achieve the maximum power transference.
Reader sends out electromagnetic waves through an alternating current passing by the reader antenna. Tag antenna is tuned to receive these waves.
Transponder unit into a magnetic field generated by an antenna
RFID Transponder Inductors
11
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or
RFID Transponder InductorsRFID Transponder InductorsPassive RFID tags draw power from field created by the reader and use it to power microchip’s circuits. Then, the chip modulates the waves that tag sends back to reader and reader converts those new waves into digital data.When transponder is not within the interrogation zone of a reader it becomes totally passive. Transponder is only activated when it is within the interrogation zone of a reader. In the same way, the reader antenna can detect magnetic field’s absorption by the transponder tuned unit due to voltage drop detected in antenna’s terminals.Active RFID tags, on the other hand, have an internal power source, and may have longer range and larger memories than passive tags, as well as the ability to store additional information sent by the transceiver. 125 kHz RFID systems operate by using inductive coupling. Specific absorption rate (damping) for water or nonconductive substances at 125 kHz is lower by a factor of 100 000 than it is at 1 GHz. Thus almost no absorption or damping occurs. It also offers better penetration into objects. Power that can be transmitted by inductive coupling is very low and depends on the distance between the transponder and the reader. Power supplied is never enough to provide transponder with sufficient energy to operate a microchip. Therefore, long range systems need an auxiliary battery. Low-frequency (LF: 125 - 134.2 kHz and 140 - 148.5 kHz) and high-frequency (HF: 13.56 MHz) RFID tags can be used globally without a license.
PREMO RFID Transponders advantages- A broad range of cost-effective standard products.- Customized designs R&D capability.- Market’s highest sensitivity and lowest profile.- Very stable performance in full temperature range -40ºC +125 ºC.- High Q factor and Low Rdc allowing higher current capacity.- Different mechanical options for different requirements.- Highest raw material quality and performance.- High quality standards ISO TS.- Own product validation following AECQ-200 rev C.
ApplicationsAt present, some of the main uses of 125 kHz systems are:
1. Automotive TPMS (Tyre Pressure Monitoring System).The basic functionality of a TPMS is to monitor tyre inflation pressure and temperature. Most TPMS are attached to the valve. The transponder, operating at 125 kHz, is the media through all the information related to the tyre is stored, defines in any moment the position of the valve and acts as wake-up device in order to enable transmitting operations of the information detected by the sensors and which is emitted at 433 MHz via an antenna.In this application, transponder coil is required high sensitivity and high stability in a wide range of temperature that usually is -40 ºC up to +125 ºC.It has been shown, that into adverse road conditions, tyre defects or their combination play an important role in road accidents and thus the use of an intelligent tyre/wheel system is a high potential of accident prevention.
12
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or
RFID Transponder Inductors
2. Automotive RKES (Remote Keyless Entry System).Many vehicles are nowadays equipped with a Remote Keyless Entry System (RKE), typically including an encrypted transponder and a controller chip (or an ASIC). When the transponder is detected inside the magnetic field generated by the reader antenna, the controller generates a rolling code that is being transmitted to the vehicle. Then, communication protocol process between the reader antenna and the key begins. The reader antenna is located in the door-handler connected to the drive unit and generates the magnetic field in which detection area will be placed.
Typical transponder detection range limit is about 3.5 m far from the car.In this application, transponder is required:- Very high sensitivity. - Very high stability in the operating temperature range (-40 ºC up to +85 ºC).- Very good mechanical performance in drop impact and its derivative effort effects.
3. Automobile immobilizers.Battery-free passive RFID anti-theft immobilizers have become standard for automotive security systems.
For immobilization, the vehicle sends a challenge to the transponder and verifies its response by operating with different crypto-algorithms. If communication protocol between the reader (generally an air coil located around the key slot) and the key transponder is correct, car’s ignition is released. Generally, electronic immobilizer and door locking system are integrated into the same transponder in the ignition key. These transponders are required to perform the same features than RKES application transponders.
PREMO RFID offers a wide variety of transponders specially designed for TPMS applications.
PREMO RFID offers a wide variety of transponders specially designed for RKES applications.
4. Logistics and remote accessMetallic environments require more penetration power and thus low frequency applications. Transponders also have a much higher storage capacity than conventional barcodes. Therefore, additional information can be attached to objects to be tracked. Transponder data can also be changed at will, and security mechanisms (authentication) can be used to prevent unauthorized writing or reading of stored data.
5. Animal identification.In fact, this is the most experienced application in RFID. Specially developed for animal transit control (also internal
13
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or
RFID Transponder Inductors
applications for automatic feeding and calculating productivity), transmission and coding procedures are provided by the 1996 ISO standards. Different populations of animals are tracked, controlled and identified with a transponder: from pets (cat and dogs), cows, salmons, insects.In this application, transponder can be placed under the animal’s skin – so calledglass transponder - , in kind of ear-ring (ear tag), inside a rumen bolus or around the neck in a collar.
Transponders sensitivity and reduced dimensions are the most valuable characteristics in this applications.
6. New revolutionary uses.Combined with sensors to monitor body functions, these devices can provide monitoring for patients. In general, any kind of identification can be performed so the number of different applications is unlimited. For instance, Mexico City police department has implanted approximately 170 of their police officers with the Verichip, to allow access to police databases and possibly track them in case of kidnapping. One disco Club in Barcelona uses an implantable Verichip to identify their VIP customers, who in turn use it to pay for drinks with discount.
The closest future opens infinite application possibilities for transponders technology. Current development lines are aimed to reduce size as well as to increase sensitivity and to enlarge reading distance.
PREMO RFID transponder designer´s kit PREMO offers a RFID transponder designer´s kit which integrates a set of different RFID transponder inductors developed for PREMO R&D department. Development engineers can use the wide range of PREMO transponders in different automotive applications such as KES/PKE/KG and TPMS. The kit includes 5 samples of each value ready to use. Order your RFID transponder designer´s kit in our website www.grupopremo.com or contact us at: [email protected]
14
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RFID Rapid GuideProduct List
Des
crip
tion
TP
0502
TP
0602
TP
0702
Size
(L
x W
x H
)mm
5.1x
2.4x
2.6
6.6x
2.3x
1.75
mm
7.7x
2.5x
2.2
mm
Con
stru
ctio
nM
etal
lized
ferr
ite
Met
alliz
ed fe
rrit
eM
etal
lized
ferr
ite
Prod
uctio
n st
atus
Mas
s pr
oduc
tion
In m
ass
prod
uctio
nIn
mas
s pr
oduc
tion
App
licat
ions
TPM
SR
TPM
S, In
mob
ilize
rR
TPM
S, In
mob
ilize
r
Indu
ctan
ce r
ange
2,38
-16m
H2.
38 m
H t
o 10
.8m
H @
125
kHz
2.38
mH
to
10.8
mH
@12
5 kH
z
Q fa
ctor
s28
-30
>30
>20
Sens
itivi
ty le
vels
25-6
0 m
Vpp/
App
/m>
50 m
Vpp/
App
/m>5
0 m
Vpp/
App
/m
Tem
pera
ture
sta
bilit
y20
0 pp
m (
-40
-> +
125
ºC)
200
ppm
(-4
0 ->
+12
5 ºC
)
Dro
p te
st p
erfo
man
ce15
0 tim
es 1
m30
0 tim
es 1
m
Not
es:
Page
num
ber
2021
22
Des
crip
tion
TP
0702
UT
P07
02U
CA
PT
P07
02C
AP
Size
(L
x W
x H
)mm
7.8x
2.5x
2.2m
m M
AX
8.7x
2.7x
3mm
MA
X8.
7x2.
7x3m
m M
AX
Con
stru
ctio
nM
etal
lized
ferr
ite
Met
aliz
ed fe
rrit
eM
etal
ized
ferr
ite
Prod
uctio
n st
atus
Mas
s pr
oduc
tion
Mas
s pr
oduc
tion
in 2
013
Mas
s pr
oduc
tion
in 2
013
App
licat
ions
RTP
MS,
Inm
obili
zer
RTP
MS,
Inm
obili
zer
RTP
MS,
Inm
obili
zer
Indu
ctan
ce r
ange
2.38
mH
-9m
H @
125
kHz
2.38
mH
-9m
H @
125
kHz
2.38
mH
to
10.8
mH
@ 1
25 k
Hz
Q fa
ctor
s>3
0>3
0>2
0
Sens
itivi
ty le
vels
25 m
Vpp
/App
/ m
25 m
Vpp
/App
/ m
>50
mVp
p/A
pp/m
Tem
pera
ture
sta
bilit
y20
0ppm
(-4
0°C
-> +
125°
C)
200p
pm (
-40°
C ->
+12
5°C
)20
0 pp
m (
-40
-> +
125
ºC)
Dro
p te
st p
erfo
man
ce30
0 tim
es 1
m
Not
es:
Oth
er in
duct
ance
s un
der
requ
est
Oth
er in
duct
ance
s un
der
requ
est
Page
num
ber
2324
25
15
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RFID Rapid Guide
Product ListD
escr
ipti
onT
R11
02T
R11
02C
AP
SDT
R11
03
Size
(L
x W
x H
)mm
11x2
.6x2
.2 m
m11
.9x3
.2x2
.6m
m M
AX
11.8
x3.6
x2.5
MA
X
Con
stru
ctio
nM
etal
lized
ferr
ite
Met
alliz
ed fe
rrit
ePl
astic
+Fe
rrit
e
Prod
uctio
n st
atus
In m
ass
prod
uctio
nM
ass
prod
uctio
nIn
mas
s pr
oduc
tion
App
licat
ions
RTP
MS,
Inm
obili
zer
RTP
MS,
Inm
obili
zer
RTP
MS,
Inm
obili
zer,
KES
Indu
ctan
ce r
ange
290µ
H t
o 16
.2 m
H @
125
kHz
2.38
mH
-9m
H34
0µH
to
16.2
mH
@12
5 kH
z
Q fa
ctor
s>3
0>3
0>4
0
Sens
itivi
ty le
vels
>75
mVp
p/A
pp/m
>75
mVp
p/A
pp/m
> 80
mVp
p/A
pp/m
Tem
pera
ture
sta
bilit
y45
0 pp
m (
-40
-> +
125
ºC)
450p
pm (
-40°
C ->
+12
5°C
)20
0 pp
m (
-40
-> +
125
ºC)
Dro
p te
st p
erfo
man
ce20
tim
es 1
m20
tim
es 1
m50
0 tim
es 1
m
Not
es:
Plas
tic c
ap a
vaila
ble
Oth
er in
duct
ance
val
ues
unde
r req
uest
Opt
iona
l coa
ting
Page
num
ber
2627
28
Des
crip
tion
SDT
R11
03C
AP
SDT
R11
03EM
SDT
R11
03-H
F1
Size
(L
x W
x H
)mm
12.1
x4x2
.9m
m M
AX
11.4
X3.5
X2.4
11.8
x3.6
x2.5
mm
MA
X
Con
stru
ctio
nPl
astic
+ fe
rrit
eFe
rrit
e +
epox
yPl
astic
+Fe
rrit
e
Prod
uctio
n st
atus
Mas
s pr
oduc
tion
App
licat
ions
RTP
MS,
Inm
obili
zer,
KES
KES
, Inm
obili
zer,
RTP
MS
RFI
D r
eade
rs
Indu
ctan
ce r
ange
2.38
mH
-9m
H2.
38 –
7.2
mH
100u
H-4
00uH
@ 2
kH
z
Q fa
ctor
s>4
0>3
5>4
5
Sens
itivi
ty le
vels
> 80
mVp
p /A
pp /
m>7
0
Tem
pera
ture
sta
bilit
y20
0 pp
m (
-40
-> +
125
ºC)
200
ppm
(-4
0 ->
+85
ºC)
Dro
p te
st p
erfo
man
ce50
0 tim
es 1
m10
00 t
imes
1 m
500
times
1 m
Not
es:
Oth
er in
duct
ance
s un
der
requ
est
Oth
er in
duct
ance
val
ues
unde
r re
ques
t
Page
num
ber
2930
31
16
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or
RFID Rapid GuideProduct List
Des
crip
tion
3DC
09LP
3DC
11LP
3DC
11LP
-AO
I
Size
(L
x W
x H
)mm
9.5X
9.5X
3.1
13x1
1.6x
3.20
mm
MA
X13
x11.
6x3.
20 m
m M
AX
Con
stru
ctio
nPl
astic
+ fe
rrit
ePl
astic
+ fe
rrit
ePl
astic
+ fe
rrit
e
Prod
uctio
n st
atus
In m
asss
pro
duct
ion
In m
ass
prod
uctio
nIn
mas
s pr
oduc
tion
App
licat
ions
KES
, Inm
obili
zer
RTP
MS,
Inm
obili
zer,
KES
,R
TPM
S, In
mob
ilize
r, K
ES
Indu
ctan
ce r
ange
2.38
– 7
.2 m
H2.
38 m
H t
o 7.
2 m
H @
125
kHz
2.38
mH
to
7.2
mH
@12
5 kH
z
Q fa
ctor
s>1
5>1
515
Sens
itivi
ty le
vels
>80
>75
mVp
p/A
pp/m
>75
mVp
p/A
pp/m
Tem
pera
ture
sta
bilit
y30
0 pp
m (
-40
->+8
5 ºC
)20
0 pp
m (
-40
-> +
125
ºC)
200
ppm
(-4
0 ->
+12
5 ºC
)
Dro
p te
st p
erfo
man
ce50
0 tim
es 1
m50
0 tim
es 1
m50
0 tim
es 1
m
Not
es:
Plas
tic c
apPl
astic
cap
, foa
m la
bel a
vaila
ble.
Plas
tic c
ap, f
oam
labe
l ava
ilabl
e
Page
num
ber
3738
39
Des
crip
tion
ZC10
03ZA
C12
033D
C06
ISO
Size
(L
x W
x H
)mm
10x1
0x3.
2 m
m14
.3x1
2x2.
5 m
m7X
7X2.
3
Con
stru
ctio
nPl
astic
+ fe
rrit
ePl
astic
bob
bin
Plas
tic +
ferr
ite
Prod
uctio
n st
atus
In m
ass
prod
uctio
nIn
mas
s pr
oduc
tion
Dev
elop
men
t
App
licat
ions
RTPM
S, In
mob
ilizer
, KES
, Log
istics
, Ind
ustri
alR
TPM
S, In
mob
ilize
r, K
ES, L
ogis
tics
KES
, Inm
obili
zer
Indu
ctan
ce r
ange
2.38
mH
to
16.2
mH
@12
5 kH
z2.
38 m
H t
o 6.
38 m
H @
125
kH
z2.
38 –
10.
5 m
H
Q fa
ctor
s>8
0>2
0>1
5
Sens
itivi
ty le
vels
>65
mVp
p/A
pp/m
>50
mVp
p/A
pp/m
>37
Tem
pera
ture
sta
bilit
y20
0 pp
m (
-40
-> +
125
ºC)
200
ppm
(-4
0 ->
+12
5 ºC
)30
0 pp
m (
-40
->+8
5 ºC
)
Dro
p te
st p
erfo
man
ce30
0 tim
es 1
m30
0 tim
es 1
m50
0 tim
es 1
m
Not
es:
Plas
tic c
ap
Page
num
ber
3233
36
17
RFI
D T
rans
pond
er In
duct
or
RFID Rapid GuideProduct List
Des
crip
tion
3DC
11LP
-AO
IF3D
C11
LP-A
OIC
3DC
11C
AP
Size
(L
x W
x H
)mm
13X1
1.6X
4.70
mm
13X1
1.6X
4.15
mm
13X1
2.8X
3.7
mm
Con
stru
ctio
nFe
rrit
e +
plas
ticFe
rrit
e +
plas
ticPl
astic
+ fe
rrit
e
Prod
uctio
n st
atus
In m
ass
prod
uctio
nIn
mas
s pr
oduc
tion
In m
ass
prod
uctio
n
App
licat
ions
KES
, sho
ck a
bsor
bing
env
.R
TPM
S, In
mob
ilize
r, K
ESR
TPM
S, In
mob
ilize
r, K
ES
Indu
ctan
ce r
ange
2.38
mH
to
7.2
mH
@12
5 kH
z2.
38 m
H t
o 7.
2 m
H @
125
kHz
2.38
mH
to
7.2
mH
@12
5 kH
z
Q fa
ctor
s35
to
2035
to
2020
Sens
itivi
ty le
vels
>75
mV/
A/m
>75
mV/
A/m
>75
mV/
A/m
Tem
pera
ture
sta
bilit
y20
0 pp
m (
-40
-> +
125
ºC)
200
ppm
(-4
0 ->
+125
ºC)
200
ppm
(-4
0 ->
+12
5 ºC
)
Dro
p te
st p
erfo
man
ce50
0 tim
es 1
m40
0 tim
es 1
m40
0 tim
es 1
m
Not
es:
Foam
labe
lPl
astic
cap
Plas
tic c
ap
Page
num
ber
4041
42
Des
crip
tion
3DC
11F
3DC
11A
OI-
05D
R3D
C11
DR
Size
(L
x W
x H
)mm
13X1
1.6X
4.35
mm
13x1
1.6x
3.9
13x1
1.6x
3.9
Con
stru
ctio
nPl
astic
+ d
errit
e +
foam
Plas
tic +
ferr
ite
Plas
tic +
ferr
ite
Prod
uctio
n st
atus
In m
ass
prod
uctio
nD
evel
opm
ent
Dev
elop
men
t
App
licat
ions
KES
, sho
ck a
bsor
bing
env
.PK
EPK
E
Indu
ctan
ce r
ange
2.38
mH
to
7.2
mH
@12
5 kH
z4,
91-7
,2m
H4,
91-7
,2m
H
Q fa
ctor
s20
18-2
225
-30
Sens
itivi
ty le
vels
>75
mV/
A/m
72-8
032
-90
Tem
pera
ture
sta
bilit
y20
0 pp
m (
-40
-> +
125
ºC)
--
Dro
p te
st p
erfo
man
ce50
0 tim
es 1
m-
-
Not
es:
Foam
labe
lPl
astic
cap
, foa
m la
bel a
vaila
ble
Plas
tic c
ap, f
oam
labe
l ava
ilabl
e
Page
num
ber
4344
45
18
RFI
D T
rans
pond
er In
duct
or
Des
crip
tion
3DC
12EM
3DC
1515
3DC
15C
AP
Size
(L
x W
x H
)mm
12.9
x 1
2.5
x 3.
6517
.5x1
6x4
mm
MA
X17
.5X1
6X4.
30 m
m
Con
stru
ctio
nO
verm
ould
edPl
astic
+ fe
rrit
ePl
astic
+ fe
rrit
e
Prod
uctio
n st
atus
Dev
elop
men
tIn
mas
s pr
oduc
tion
In m
ass
prod
uctio
n
App
licat
ions
PKE
RTP
MS,
Inm
obili
zer,
KES
,R
TPM
S, In
mob
ilize
r, K
ES
Indu
ctan
ce r
ange
4,91
-7,2
mH
340µ
H t
o 10
mH
@12
5 kH
z34
0 µH
to
10 m
H @
125
kHz
Q fa
ctor
s18
-28
2525
Sens
itivi
ty le
vels
38-4
7>1
05 m
Vpp/
App
/m>1
05 m
V/A
/m
Tem
pera
ture
sta
bilit
y20
0 pp
m (
-40
-> +
125
ºC)
200
ppm
(-4
0 ->
+12
5 ºC
)
Dro
p te
st p
erfo
man
ce50
0 tim
es 1
m40
0 tim
es 1
m
Not
es:
Plas
tic c
ap, f
oam
labe
l ava
ilabl
ePl
astic
cap
Page
num
ber
4647
48
Des
crip
tion
3DC
15F
TC
0502
HF
SDT
R11
03-H
F2
Size
(L
x W
x H
)mm
17.5
X15.
5X5
mm
5.1x
2.4x
2.6
11.8
x3.6
x2.5
mm
MA
X
Con
stru
ctio
nPl
astic
+ d
errit
e +
foam
Met
alliz
ed fe
rrit
ePl
astic
+ fe
rrit
e
Prod
uctio
n st
atus
In m
ass
prod
uctio
nM
ass
prod
uctio
n
App
licat
ions
KES
, sho
ck a
bsor
bing
env
.N
FCN
FC
Indu
ctan
ce r
ange
340
µH t
o 10
mH
@12
5 kH
z2-
4.7u
H1u
H-2
0uH
Q fa
ctor
s25
>20
Sens
itivi
ty le
vels
>105
mV/
A/m
Tem
pera
ture
sta
bilit
y20
0 pp
m (
-40
-> +
125
ºC)
Dro
p te
st p
erfo
man
ce50
0 tim
es 1
m50
0 tim
es 1
m
Not
es:
Foam
labe
l
Page
num
ber
4950
51
RFID Rapid GuideProduct List
19
RFI
D T
rans
pond
er In
duct
or
Des
crip
tion
3DC
15H
F4D
C15
NF
Size
(L
x W
x H
)mm
17.5
x16x
4 m
m M
AX
16x1
7.2x
4.1
Con
stru
ctio
nPl
astic
+ fe
rrit
ePl
astic
+ fe
rrit
e
Prod
uctio
n st
atus
Dev
elop
men
t
App
licat
ions
NFC
NFC
/PK
E
Indu
ctan
ce r
ange
3uH
-18u
H4.
7mH
(12
5kH
z)/0
.85u
H (
13.5
6MH
z)
Q fa
ctor
s15
-24
>24
(125
kHz)
/ >
4.5
(13.
56M
Hz)
Sens
itivi
ty le
vels
Tem
pera
ture
sta
bilit
y
Dro
p te
st p
erfo
man
ce50
0 tim
es 1
m
Not
es:
Page
num
ber
5253
Des
crip
tion
2D1D
15ZC
1003
HF
Size
(L
x W
x H
)mm
17x1
5.6x
3.7
10.0
x10.
0x3.
1 m
m M
AX
Con
stru
ctio
nPl
astic
+ fe
rrit
ePl
astic
+ fe
rrit
e
Prod
uctio
n st
atus
In m
asss
pro
duct
ion
App
licat
ions
KES
, NFC
NFC
Indu
ctan
ce r
ange
2.38
-7.2
mH
; 6 u
H22
uH-4
5uH
Q fa
ctor
s>2
0>8
0
Sens
itivi
ty le
vels
>75
mV/
A/m
Tem
pera
ture
sta
bilit
y20
0 pp
m (
-40
->+8
5 ºC
)
Dro
p te
st p
erfo
man
ce50
0 tim
es 1
m
Not
es:
Page
num
ber
5455
RFID Rapid GuideProduct List
20
Sing
le A
xis
Tran
spon
der
Indu
ctor
s
TP0502 SMD Transponder Coil
Electrical specifications
5.2x2.4x2.7 mm MAX
Dimensions
All dimensions in mm
Standard tolerances: ±0.1mm
FeaturesThis single axis transponder suitable for Surface Mountable process combines a very small size and a good electrical performance and stability in tem-perature. A very good solution for RTPMS, Keyless Go and Keyless entry systems.
Characteristics- Very small size: 5.2x2.4x2.7mm- Good mechanical performance- Good sensitivity in small volume- Very stable electrical properties in full operational operative range (-40°C +125°C)- Wire: H, 125°C solderable.- Terminals: Ag-Ni-Sn100- Max. Operating Temperature: +125°C- Suitable for Pick&Place SMD assembly
Code L (mH) Q minSRF (kHz)
Min
DCR(Ω)Max
Sensitivity (mVpp/App/m)
min
Dimensions (mm) Max
TP0502-0238J 2.38 ± 5% 30 600 64.9 25 5.2 x 2.4 x 2.7
TP0502-0491J 4.91 ± 5% 28 550 94.6 32 5.2 x 2.4 x 2.7
TP0502-0589J 5.89 ± 5% 26 550 104.5 37 5.2 x 2.4 x 2.7
TP0502-0720J 7.2 ± 5% 24 500 127.6 40 5.2 x 2.4 x 2.7
TP0502-0900J 9.0 ± 5% 22 450 143.0 45 5.2 x 2.4 x 2.7
TP0502-1600J 16.0 ± 5% 28 450 191.4 60 5.2 x 2.4 x 2.7
21
Sing
le A
xis
Tran
spon
der
Indu
ctor
s
TP0602 Micro SMD Hard Ferrite Transponder Inductor
Electrical specifications125KHz
20KHz
6.6x2.3x1.75 mm (2.38 mH - 10.8 mH)
P/N L (mH) Tolerance Q Min SRF Min (kHz)Sensitivity Min
(mVpp/App/m)
TP0602-0238J 2.38 ±5% 20.7 900 16
TP0602-0491J 4.91 ±5% 20.7 600 25
TP0602-0720J 7.20 ±5% 18 500 30
TP0602-0900J 9.00 ±5% 18 450 35
P/N L (mH) Tol.Q Min (typ)
SRF Min
TP0602-124J 120 ±5% 4 100
TP0602-104J 100 ±5% 5.0 120
TP0602-823J 82 ±5% 5.6 140
TP0602-673J 67 ±5% 5.2 100
TP0602-563J 56 ±5% 7.5 190
TP0602-473J 47 ±5% 8.0 200
TP0602-333J 33 ±5% 10 200
Operating and test freq: 125KHz.SRF: Self-resonant frequency of the coil.C: Capacitor for tuning circuits (125khz).This chart is a reference guide for the most common required values at working frequency of 125 kHz. Any other inductance value at LF or tighter tolerances can be provided. Please contact our sales department for any inquiry.Sensitivity measured with Helmholtz coils H=8.36 App/m @125 kHz. Contact us for measurement specification.
• Terminals: Ag-Ni-Sn100.• Wire: H, 180ºC, Solderable.• Max. Operating Temperature 125ºC.• Refer to the General Features of SMD transponder inductors page.
Dimensions
All dimensions in mm Layout
FeaturesThe TP0602 Series of Surface Mountable ferrite wound inductor is a small transponder solution for automotive applications like TPMS,Keyless Go and Keyless entry systems.- Size:6.6mm x 2.3mm x 1.75mm. - Good mechanical performance.- High sensitivity for 20KHz,40KHz and 125KHz applications.- Good perfomance in thermal shock test.- Good cost/perfomance ratio. - Available high inductance version for hearing aids applications. - Good solution for TPMS moulded solutions. The TP0602 is the smaller SMD transponder coil available in the market.- This component is also functional to 20kHz and 134kHz.
22
Sing
le A
xis
Tran
spon
der
Indu
ctor
s
TP0702 SMD Hard Ferrite Mechanically Improved Transponder Inductor
Dimensions
7.7x3x2.5x2.2 mm (2.38 mH - 10.8 mH)
Electrical specifications
P/N L (mH) @125 kHz
Tolerance Cres (pF) Q @125 kHzSRF
(kHz)Sensitivity
(mVpp/App/m) @125 kHz
TP0702-0238J 2.38 ±5% 680 >20 >750 >25
TP0702-0491J 4.91 ±5% 330 >22 >500 >50
TP0702-0720J 7.20 ±5% 225 >18 >450 >47
TP0702-0900J 9.00 ±5% 180 >18 >400 >47
This chart is a reference guide for the most common required values at working frequency of 125 kHz. Any other inductance value at LF or tighter tolerances can be provided. Please contact our sales department for any inquiry.Sensitivity measured with Helmholtz coils H=8.36 App/m @125 kHz. Contact us for measurement specification.SRF: Self Resonant Frequency of the coil.Cres: Capacitor for tuning circuits (125 kHz).
• Terminals: Ag-Ni-Sn100.• Wire: H, 180 ºC, Solderable.• Refer to the General Features of SMD transponder inductors page.
FeaturesThis TP0702 Series of Surface Mountable ferrite wound inductor is a stronger solution in very small dimensions performing very good electrical properties, a very good solution for RTPMS, Keyless Go and Keyless entry systems.
Characteristics: - Size: 7.7 x 3 x 2.2 mm.- Very good mechanical performance.- High sensitivity in the smallest volume.- Very stable electrical properties in full operational temperature range (-40 g +125 ºC).- Good performance in thermal shock.- Big metallised pad area Pb free.- Good cost/performance ratio.- Due to its small dimensions, it’s a suitable design for other applications working at lower frequencies.- This component is also functional to 20kHz and 134kHz.
Layout
23
Sing
le A
xis
Tran
spon
der
Indu
ctor
s
TP0702U SMD Transponder Coil
Characteristics- Size: 8x2.2x2.5mm.- Very good mechanical performance.- High sensitivity in the smallest volume.- Very stable electrical properties
in full operational temperature range (-40, +125ºC).
- Good performance in thermal shock.- Big metallised pad area Pb free.- Good cost/performance ratio.- Terminals: Ag-Ni-Sn100.- Wire: H, 125ºC, Solderable.- Max. Operating Temperature 125ºC.
Applications- Due to its small dimensions, it’s a suitable
design for other applications working at lower frequencies.
7.8x2.2x2.5 mm MAX
Dimensions
FeaturesThis TP0702U Series of Surface Mountable ferrite wound inductor is a stronger solution in very small dimensions performing very good electrical properties, a very good solution for RTPMS, Keyless Go and Keyless entry systems:
All dimensions in mm
The specification chart is a reference guide for the most common required values at working frequencies of 125 kHz. Any other inductance value at LF or tighter tolerances can be provided.
Electrical specifications
P/NL
(mH)
Q minSRF
(kHz)Min
DCR(Ω)Max
Sensitivity (mVpp/
App/m) min
Dimensions(mm)Max
TP0702U-0238J 2.38 ± 5% 30 900 25.3 25 7.8 x 2.2 x 2.5
TP0702U-0491J 4.91 ± 5% 35 700 38.5 38 7.8 x 2.2 x 2.5
TP0702U-0720J 7.2 ± 5% 30 500 61.1 50 7.8 x 2.2 x 2.5
TP0702U-0900J 9.0 ± 5% 30 450 84.7 55 7.8 x 2.2 x 2.5
24
Sing
le A
xis
Tran
spon
der
Indu
ctor
s
TP0702UCAP SMD Transponder Coil
Characteristics- Size: 8.7 x 2.7 x 3 mm.- Very good mechanical performance.- High sensitivity in the smallest volume.- Very stable electrical properties in
full operational temperature range (-40, +125ºC).- Good performance in thermal shock.- Big metallised pad area Pb free.- Good cost/performance ratio.
ApplicationsDue to its small dimensions, it’s a suitable design for other applications working at lower frequencies.- Terminals: Ag-Ni-Sn100.- Wire: H, 125ºC, Solderable.- Max. Operating Temperature 125ºC.
FeaturesThis TP0702UCAP Series of Surface Mountable ferrite wound inductor is a stronger solution in very small dimensions performing very good electrical properties, a very good solution for RTPMS , Keyless Go and Keyless entry systems:
Dimensions
All dimensions in mm
8.7x2.7x3 mm MAX(2.38 mH – 18.5 mH)
The specification chart is a reference guide for the most common required values at working frequencies of 125 kHz. Any other inductance value at LF or tighter tolerances can be provided. Please contact our sales deparment for any inquiry.
P/NL
(mH)
Q minSRF(Ω)Max
DCR(Ω)Max
Sensitivity (mVpp/
App/m) min
Dimensions(mm)Max
TP0702UCAP-0238J 2.38 ± 5% 30 900 25.3 25 8.6 x 3.0 x 2.7
TP0702UCAP-0491J 4.91 ± 5% 35 700 38.5 38 8.6 x 3.0 x 2.7
TP0702UCAP-0720J 7.2 ± 5% 30 500 61.1 50 8.6 x 3.0 x 2.7
TP0702UCAP-0900J 9.0 ± 5% 30 450 84.7 55 8.6 x 3.0 x 2.7
TP0702UCAP-1850J 18.5 ± 5% 30 400 165 90 8.6 x 3.0 x 2.7
Electrical specifications
25
Sing
le A
xis
Tran
spon
der
Indu
ctor
s
P/N L (mH) @125 kHz
Tolerance Cres (pF) Q @125 kHzSRF
(kHz)Sensitivity
(mVpp/App/m) @125 kHz
TP0702CAP-0238J 2.38 ±5% 680 >20 >750 >25
TP0702CAP-0491J 4.91 ±5% 330 >22 >500 >50
TP0702CAP-0720J 7.20 ±5% 220 >18 >450 >47
TP0702CAP-0900J 9.00 ±5% 180 >18 >400 >47
TP0702CAP SMD CAP Hard Ferrite Transponder Inductor
Characteristics- Size: 8.7 x 2.7 x 3 mm.- Very good mechanical performance.- High sensitivity in the smallest volume- Very stable electrical properties in full operational temperature range (-40 ºC --> +125 ºC).- Good performance in thermal shock.- Good cost/performance ratio.- This component is functional also to 20kHz and 134kHz.
Dimensions
Electrical specifications
8.7x2.7x3 mm (2.38 mH – 9 mH)
This chart is a reference guide for the most common required values at working frequency of 125 kHz. Any other inductance value at LF or tighter tolerances can be provided. Please contact our sales department for any inquiry.Sensitivity measured with Helmholtz coils H=8.36 App/m @ 125 kHz. Contact us for measurement specification.SRF: Self Resonant Frequency of the coil.Cres: Capacitor for tuning circuits (125 kHz).
FeaturesThis TP0702 with CAP is a very strong solution in very small dimensions. The component has very good electrical properties and it is a very good solution for RTPMS, Keyless Go and Keyless Entry Systems. On the other hand, the plastic box, where it is inserted the piece, offers a special protection to the wound and facilitates the pick and place.
Recommended pad layout
26
Sing
le A
xis
Tran
spon
der
Indu
ctor
s
TR1102 SMD Ferrite Transponder Inductor 11x2.6x2.2 mm (0.29 mH - 16.2 mH)
Dimensions
P/N L (mH) @125 kHz
Tolerance Cres (pF) Q @125 kHzSRF
(kHz)Sensitivity
(mVpp/App/m) @125 kHz
TR1102-0238J 2.38 ±5% 680 >25 500 >35
TR1102-0491J 4.91 ±5% 330 >30 420 >50
TR1102-0720J 7.20 ±5% 220 >27 350 >70
TR1102-0900J 9.00 ±5% 180 >24,3 280 >75
Operating and test freq: 125KHz.SRF: Self-resonant frequency of the coil.C: Capacitor for tuning circuits (125khz).This chart is a reference guide for the most common required values at working frequency of 125 kHz. Any other inductance value at LF or tighter tolerances can be provided. Please contact our sales department for any inquiry.Sensitivity measured with Helmholtz coils H=8.36 App/m @125 kHz. Contact us for measurement specification.
• Terminals: Ag-Ni-Sn100.• Wire: H, 180 ºC, Solderable.• Refer to the General Features of SMD transponder inductors page.
Electrical specifications
FeaturesThe TR1102 series of surface mountable ferrite wound inductor is the very first SMD coil designed for transponder use. Its length and cross sectional area are optimized to achieve the maximum sensibility in the coil axis.Its size is excellent for plastic moulded inmobilizer transponders.The TR1102 is the best solution when both cost and high-speed assembly of the circuit components are sought.This component is also functional to 20kHz and 134kHz.
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TR1102CAP SMD CAP Ferrite Transponder Inductor
Characteristics- Size: 11.8 x 3.1 x 2.6 mm.- Terminals: Ag-Ni-Sn100.- Wire: H, 180ºC, Solderable.- Max. Operating Temperature 125ºC.
Dimensions
11.8 x 3.1 x 2.6 mm(2.38 mH - 9.0 mH)
FeaturesThe TR1102CAP series of surface mountable ferrite wound inductor is an evolution of the TR1102 series, and also one of the very first SMD coils designed for transponder use. Its length and cross sectional area are optimized to achieve the maximum sensitivity in the coil axis. And the use of high quality plastic material for the cap provides an additional mechanical protection to the coil with the thinnest walls, combined with a high performance in temperature.
The TR1102CAP is a solution that combines the low cost and high-speed assembly of the circuit component, with the high mechanical protection provided by the cap, and it’s excellent when the application demands a stronger coil.
All dimensions in mm Tolerance unless otherwise specified +- 0.20mm
Electrical specifications (7.2mH)
Code L @125 kHz (mH)
Q min. @125 kHz
SRF min. (kHz)
DCR min. (Ohm)
Sensitivity min.@125 kHz (mVpp/App/m)
TR1102CAP-0238J 2.38 ±5% 25 500 40,7 35
TR1102CAP-0491J 4.91 ±5% 50 420 49 50
TR1102CAP-0720J 7.20 ±5% 25 330 90.2 70
TR1102CAP-0900J 9.00 ±5% 22.5 300 132 75
Inductance, Q factor, DCR and SRF measured with an LCR meter Wayne Kerr PMA 3260A.
The specification chart is a reference guide for the most common required values at working frequencies of 125 kHz. Any other inductance value at LF or tighter tolerances can be provided. Please contact our sales deparment for any inquiry.
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SDTR1103 SMD Drop Resistant Transponder Coil
11.8x3.6x2.5 mm (max dimensions coated version) (340 µH - 16.2 mH)
Characteristics- This inductor is the best solution when
high electrical and mechanical performan ce is needed.
- High stability in temperature. (-40ºC to +125ºC for TPMS applications
no coated version) (-40ºC to +85ºC for Keyless Entry Systems)- High drop test resistance (more than 500
times x 1meter).- High sensitivity.- Epoxy coated. High reliability with pick &
place machines warranted.- This component is also functional to
20kHz and 134kHz.
Applications- Inmobilizers.- Tyre Pressure Monitoring Systems.- Keyless Entry Systems.- Industrial applications.- Access control.
Dimensions and recommended pad layout
All dimensions in mmTolerances unless otherwise specified: ±0.20mm
Electrical specifications
P/N L (mH) @125 kHz
Cres (pF) Q @125 kHzSRF
(kHz)RDC (Ω)
max.
Sensitivity (mVpp/App/m)
@125 kHz
SDTR1103-0019J 0.19 8532 > 17.1 > 2000 8 > 10
SDTR1103-0238J 2.38 680 > 34.2 > 500 39 > 30
SDTR1103-0266J 2.66 609 > 40.5 > 500 33 > 40
SDTR1103-0477J 4.77 340 > 303 > 350 63.8 > 60
SDTR1103-0491J 4.91 330 > 27.9 > 380 85 > 50
SDTR1103-0720J 7.20 220 > 29.7 > 300 103 > 70
SDTR1103-0900J 9.00 180 > 30.6 > 300 115 > 80
This chart is a reference guide for the most common required values at working frequency of 125 kHz. Any other inductance value at LF or tighter tolerances can be provided. Please contact our sales department for any inquiry.Sensitivity measured with Helmholtz coils H=8.36 App/m @125 kHz. Contact us for measurement specification. Operating and test freq: 125KHz.SRF: Self-resonant frequency of the coil.Other tolerances available under customer requirements.
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SDTR1103CAP SMD Drop Resistant Transponder
Characteristics- High sensitivity. 75 mVpp/App/m for 7.2
mH (@125 kHz). 135 mVpp/App/m for 16.2 mH (@125 kHz).
- Mechanical performance. Drop test: more than 500 times x 1 meter.
- CAP protection, 5 sides protected , high reliability with Pick&Place machines warranted.
- Taped & Reel: 3000pcs / reel.- Inductance values from 340μH to 16.2mH
for 125KHz operations (contact PREMO RFID for inductance range for other working frequencies such as 20KHz and 40KHz).
Applications- Inmobilizers.- Tire pressure monitoring systems.- Keyless entry Systems.- Industrial applications.- Access control.
Dimensions
12.1x4.0x2.9mm MAX (2.38mH-9mH)
FeaturesThe SDTR1103CAP Series of Surface Mount ferrite wound inductor is the best solution when high electrical and mechanical performance is needed. Its length and cross sectional area are optimized to achieve the maximum sensitivity in the coil axis. The construction of the coil offer high mechanical performance due to the plastic base and ferrite laminate.High stability in temperature, ranges: ΔLs/Ls (-40ºC 25ºC): -2% max.ΔLs/Ls (+25ºC +85ºC): +0.5% max.Typical temperature coefficient ΔLs/ºC: +200±50ppm/ºC. -40ºC to +125ºC for TPMS applications.-40ºC to +85ºC for Keyless Entry Systems.
All dimensions in mm
The specification chart is a reference guide for the most common required values at working frequencies of 125 kHz. Any other inductance value at LF or tighter tolerances can be provided. Please contact our sales deparment for any inquiry.
Electrical specifications
Code L (mH) Q minSRF
(kHz) MinDRC
(Ω) Max
Sensitivity (mVpp/App/m) min
SDTR1103CAP-0238J 2.38 40 500 27.5 45
SDTR1103CAP-0491J 4.91 36 380 68 50
SDTR1103CAP-0720J 7.20 39.5 300 82 70
SDTR1103CAP-0900J 9.00 40.5 300 92 80
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SDTR1103EM SMD Transponder Coil
Features- Single coil SMD molded- Allows Automatic Optical Inspection.- Improved sensitivity and Q factor.- Suitable for automotive Key Less Entry
and TPMS applications.- The inductivity can be customized to
achieve customer requirements.- AEC-Q200 qualified.
This chart is a reference guide for the most common required values at working frequency of 125 kHz. Any other inductance value at LF or tighter tolerances can be provided. Also can be supplied different inductance values in the different winding axis. Please contact our sales department for any inquiry.Sensitivity measured with Helmholtz coils H=8.36 App/m @125 kHz. Contact us for measurement specification.SRF: Self Resonant Frequency of the coil.
Electrical specifications
All dimensions in mm
Code L (mH)
QMin
f (kHz)
SRF (kHz) Min
DCR(Ω) Max
Sensitivity (mVpp/
App/m) min
Length (mm)
Width (mm)
Height (mm)
SDTR1103EM-0720J 7.2 26 125 350 95 68 11.4 3.5 2.4
Dimensions and recommended pad layout
11.4x3.5x2.4 mm
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SDTR1103-HF1 SMD Drop Resistant Transponder Coil High Frequency
Characteristics- High stability in temperature (-40ºC to +85ºC)- Good mechanical performance. Drop test: more than 500 times x 1 meter.- Taped & Reel: 3000pcs / reel.
Applications- RF reception at 500kHz and till 2MHz.
Electrical specifications
Dimensions and recommended pad layout
Nomenclature
P/N L (uH) Q Operating Freq. (MHz)
SDTR1103-HF1-0100J 100 ± 5% 45 ± 5% 0,5
SDTR1103-HF1-0290K 290 ± 10% 70 ± 10% 2
SDTR1103-HF1-0400K 400 ± 10% 90 ± 10% 2
Tolerance K=10%This chart is a reference guide for the most common required values at working frequency. Any other inductance value at HF or tighter tolerances can be provided. Please contact our sales department for any inquiry. L and Q factor measured at 1Vac. Contact us for measurement specification.
FeaturesThe SDTR1103 Series of Surface Mount ferrite wound inductor is the best solution when high electrical and mechanical performance is needed.Its length and cross sectional area are optimized to achieve the maximum sensitivity in the coil axis.The construction of the coil offer high mechanical performance due to the plastic base and ferrite laminate.
11.8x3.6x2.5mm MAX (100mH - 400mH)
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ZC1003SMD Z AXIS COIL Low Profile 10x10x3.2 mm (2.38 mH - 16.2 mH)
ApplicationsAutomotive.- Passive Keyless Entry and Keyless Go Systems.- RTPMS with wake up functions. Industrial logistics and control.- Access control.- Tracking devices.
Keyless Entry Systems is a typical application for this coil where performs high sensitivity in a very small package and with the advantage of easy SMD assembly. This design shows also very good sensitivity performance in angle deviation from z axes.
Characteristics- Standard size 10x10x3 mm.- Very good electrical and mechanical performance.- High stability in temperature (-40ºC to +125ºC).- Inductivity value can be customized to achieve customer requirements.- Designs at lower frequencies such as 20 kHz and 40 kHz show a very good electrical performance as well.- High sensitivity values achieved with very good thermal and mechanical performance.- This component is also functional to 20kHz and 134kHz.
Dimensions
Electrical specifications
This chart is a reference guide for the most common required values at working frequency of 125 kHz. Any other inductance value at LF or tighter tolerances can be provided. Please contact our sales department for any inquiry.L and Q factor measured at 125 kHz, 1 Vac.Sensitivity measured with Helmholtz coils H=8.36 App/m @125 kHz. Contact us for measurement specification.SRF: Self Resonant Frequency of the coil.
P/N L (mH) Cres (pF) Q SRF
(kHz)RDC (Ω)
max.Sensitivity
(mVpp/App/m)
ZC1003-0073J 0.735 2205 >65.7 >1000 5 >20
ZC1003-0238J 2.38 680 >58.5 >1000 27 >20
ZC1003-0266J 2.66 609 >58.5 >1000 29 >20
ZC1003-0491J 4.91 330 >72 >900 41 >25
ZC1003-0720J 7.20 220 >55 >850 55 >35
ZC1003-0900J 9.00 180 >81 >800 62 >40
FeaturesThis SMD coil offers a very low profile solution for applications in which it’s needed a transponder vertical coil with high sensitivity in z direction and in a small surface area. It’s so a lower profile solution for those applications in which the height of the component is critical. The design combines the best electrical performance in these dimensions together with mechanical robustness.
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ZAC1203SMD Z AXIS AIR COIL Low Profile 14.3x12x2.5 mm (2.38 mH – 6.38 mH)
Applications- Passive Keyless Entry and
Keyless Go Systems - RTPMS with wake up functions- Industrial logistics and control- Access control- Tracking devices
Characteristics- Very good electrical and
mechanical performance- High stability in temperature (-40ºC to +125ºC)- High sensitivity values achieved with
very good thermal performance- This component is also functional to 20 and 125 kHz.
Dimensions and recommended padlayout
Electrical specifications
P/N L (mH) QSRF
(kHz)RDC (Ω)
max.Sensitivity
(mVpp/App/m)
ZAC1203-0238J 2.38 ± 5% >18 >1 93 >30
ZAC1203-0491J 4.91 ± 5% >18 >1 192,5 >45
ZAC1203-0638J 6.38 ± 5% >18 >1 230 >50
All dimensions in mm
FeaturesThis SMD coil offers a very low profile solution for applications in which it’s needed a transponder vertical coil with high sensitivity in z direction and a small surface area. It’s so a lower profile solution for those applications in which the height of the component is critical. The design has the best electrical performance in these dimensions
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General Specifications Transponder Inductors SMD Soldering and Packaging
Soldering: recommended reflow profileReflow soldering, vapour-phase soldering. A maximum soldering temperature of 260 ºC during 10 s should not be exceeded for (see recommended soldering profile with maximum and minimum temperature-time).
Measuring equipments and conditions1.- Rated inductance LR 2.- Q factor Qmin3.- Self-resonance frequency fmin 4.- DC resistance Rmax5.- Sensitivity
Measured at frequency fL, with impedance analyser WK3260 with 3MHz installedMeasured at frequency fL, with impedance analyser WK3260 with 3MHz installedMeasured at frequency fL, with impedance analyser WK3260 with 3MHz installedMeasured at 20 ºC ambient temperature, measuring current < IR.Measured with Helmholtz coils 5 turns, 160mm Ø, + waveform generator Agilent 33120A + oscilloscope Agilent 54622A . Contact PREMO RFID for complete measurement specification
Taping
The reflow condition recommended above is according to the machine used by our company. Big differences will arise as a result of the type of machine, reflow conditions, method, etc used.
Packing
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Tape and reel packaging specifications
Series A B C D E W P Po P1 D T Parts/Reel
TR1102 330 50 13 30.4 24.4 24 4 4 2 2.5 0.3 5000
TR1102CAP 330 50 13 30.4 24.4 24 8 4 2 2.8 0.3 3000
TP0602 330 50 13 22.4 16.4 16 4 4 2 2.5 0.3 5000
TP0702 330 50 13 22.4 16.4 16 8 4 2 2.9 0.3 3000
TP0702CAP 330 50 13 22.4 16.4 16 8 4 2 2.8 0.3 3000
TP0702UCAP 330 50 13 22.4 16.4 16 8 4 2 2.9 0.3 2500
3DC15 330 50 13 30.4 24.4 24 20 4 2 4.2 0.3 600
3DC15CAP 330 50 13 30.4 24.4 24 20 4 2 4.2 0.3 600
3DC1515-HF 330 50 13 30.4 24.4 24 20 4 2 4.2 0.3 600
ZC1003 330 50 13 30.4 24.4 24 16 4 2 4.2 0.3 1000
ZC1003HF 330 50 13 30.4 24.4 24 16 4 2 4.2 0.3 1000
ZAC1203 330 50 13 30.4 24.4 24 8 4 2 2.7 0.3 600
SDTR1103 330 50 13 30.4 24.4 24 8 4 2 2.7 0.3 3000
3DC15F 330 50 13 30.4 24.4 24 20 4 2 5.4 0.3 600
SDTR1103CAP 330 50 13 30.4 24.4 24 8 4 2 2.7 0.3 3000
SDTR1103-HF1 330 50 13 30.4 24.4 24 8 4 2 2.7 0.3 3000
SDTR1103-HF2 330 50 13 30.4 24.4 24 8 4 2 2.7 0.3 3000
3DC11LP 330 50 13 30.4 24.4 24 16 4 2 4.2 0.3 1000
3DC11CAP 330 50 13 30.4 24.4 24 16 4 2 4.2 0.3 600
3DC11F 330 50 13 30.4 24.4 24 16 4 2 5.6 0.5 600
3DC11LP-AOI 330 50 13 30.4 24.4 24 16 4 2 4.2 0.3 1000
3DC11LP-AOIF 330 50 13 30.4 24.4 24 16 4 2 5.6 0.4 600
3DC11LP-AOIC 330 50 13 30.4 24.4 24 16 4 2 4.5 0.4 600
TC0502HF 330 50 13 22.4 16.4 16 8 4 2 2.5 0.3 2000
TP0502 330 50 13 22.4 16.4 16 8 4 2 2.5 0.3 2000
4DC15NF 330 50 13 30.4 24.4 24 20 4 2 4.2 0.3 600
2D1D15 330 50 13 30.4 24.4 24 20 4 2 4.2 0.3 600
SDTR1103EM 330 50 13 30.4 24.4 24 8 4 2 2.7 0.3 3000
3DC06ISO 330 50 13 22.4 16.4 16 12 4 2 2.8 0.4 2000
3DC09LP 330 50 13 30.4 24.4 24 16 4 2 3.6 0.4 1000
Reel dimensions Tape dimensions
General Specifications Transponder Inductors SMD Soldering and Packaging
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3DC06ISOSMD 3D Coil 7x7x2.3 mm
Dimensions and recommended pad layout
All dimensions in mmPins coplanarity 0.10mm
Electrical specifications
This chart is a reference guide for the most common required values at working frequency of 125 kHz. Any other inductance value at LF or tighter tolerances can be provided. Also can be supplied different inductance values in the different winding axis. Please contact our sales department for any inquiry.Sensitivity measured with Helmholtz coils H=8.36 App/m @125 kHz. Contact us for measurement specification.SRF: Self Resonant Frequency of the coil.
Code L x,y(mH)
Lz(mH)
QxMin
QyMin
Qz Min
f(kHz)
SRFx,y(kHz) Min
SRFz(kHz) Min
DCRx,y(Ω) Max
DCRz(Ω) Max
Sensitivity x,y,z (mVpp/App/m)
Min
Length (mm)
Width (mm)
Height (mm)
3DC06ISO-0345J 3.45 10.5 18 15 27 125 500 750 150 350 37 7.0 7.0 2.3
FeaturesThe currently smallest 3D coil in the market. New secure devices in the KES require smaller sizes in this passive component and still a long reading dis-tance together with higher reliability. 3DC06ISO offers new design possibilities due to its size with a more than acceptable electrical performance.
Characteristics- Size: 7 x 7 x 2.3 mm - High drop test resistance (up to 500 times 1 m)
due to a maximized pin area- Allows Automatic Optical Inspection- High stability in temperature (-40ºC to +85ºC) - Labelled to allow P&P operations- Taped & Reeled- Designed for 125KHz,134KHz and 20 kHz
Start of winding is indicated with the dot
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3DC09LP SMD 3D Coil 9.5x9.5x3.1 mm
Dimensions and recommended pad layout
Characteristics- 3 coils in one component, oriented in the 3 space axes with full functionality.- Allows Automatic Optical Inspection.- Improved sensitivity for X and Y axes. Q factor improved for Z axis.- Suitable for automotive Key Less Entry applications with miniaturized designs.- The inductivity in each axis can be customized to achieve customer requirements.
Electrical specifications
This chart is a reference guide for the most common required values at working frequency of 125 kHz. Any other inductance value at LF or tighter tolerances can be provided. Also can be supplied different inductance values in the different winding axis. Please contact our sales department for any inquiry.Sensitivity measured with Helmholtz coils H=8.36 App/m @125 kHz. Contact us for measurement specification.SRF: Self Resonant Frequency of the coil.
All dimensions in mm
Pins coplanarity 0.10mm
Code L x,y,z(mH)
QxMin
QyMin
QzMin
f(kHz)
SRFx,y(kHz) Min
SRFz(kHz) Min
DCRx,y,z(Ω) Max
Sensitivity x,y (mVpp/App/m)
Min
Sensitivity z (mVpp/App/m)
Min
Length (mm)
Width (mm)
Heigth (mm)
3DC09LP-0720J 7.2 18 15 25 125 300 900 220 80 35 9.5 9.5 3.1
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3DC11LPSMD 3D Coil 13x11.6x3.20 mm MAX (2.38 mH – 7.2 mH) Low profile
Dimensions and recommended pad layout
Tolerances unless otherwise specified: ±0.20mmAll dimensions in mm
Pins coplanarity 0.15mm
Characteristics- Offers 3 coils, oriented in the 3 space axes, assembled in a single component with full functionality.- Suitable for automotive applications (Keyless Entry Systems, RTPMS), etc.- Very good electrical performance in the smallest dimensions.- High stability in temperature (-40ºC to +85ºC).- High sensitivity values.- The inductivity in each axis can be customized to achieve customer requirements.- Designs at lower frequencies, 20 kHz or 40 kHz, show a very good electrical performance as well.
Electrical specifications
This chart is a reference guide for the most common required values at working frequency of 125 kHz. Any other inductance value at LF or tighter tolerances can be provided. Also can be supplied different inductance values in the different winding axis. Please contact our sales department for any inquiry.L and Q factor measured at 125 kHz, 1 Vac.Sensitivity measured with Helmholtz coils H=8.36 App/m @125 kHz. Contact us for measurement specification.SRF: Self Resonant Frequency of the coil.
P/NL
x,y,z (mH)
Qx,y,z Min
Freq(KHz)
Cres (pF)
SRFx,y (kHz) Min
SRFz (kHz) Min
DCRx,y(Ohm) Max
DCRz(Ohm) Max
Sensitivity x,y,z (mV/App/m)
Min
Length (mm)
Width(mm)
Height (mm)
3DC11LP-0238J 2.38 18 125 680 450 900 60,5 82,5 40 13 11,6 3,15
3DC11LP-0247J 2.47 17 125 656 450 900 68 82,5 50 13 11,6 3,15
3DC11LP-0345J 3.45 15 125 470 350 800 100 121 55 13 11,6 3,15
3DC11LP-0405J 4.05 15 125 400 300 600 100 138 60 13 11,6 3,15
3DC11LP-0477J 4.77 15 125 340 320 600 100 150 70 13 11,6 3,15
3DC11LP-0491J 4.91 18 125 330 300 600 100 160 70 13 11,6 3,15
3DC11LP-0720J 7.20 15 125 225 250 500 165 209 85 13 11,6 3,15
3DC11LP-A-2000J 20 5 20 3166 120 350 495 385 22 13 11,6 3,15
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3DC11LP-AOISMD 3D11 Coil Low Profile AOI 13X11.6X3.45 mm
Dimensions and recommended pad layout
All dimensions in mm Pins coplanarity 0.10mm General Tolerances unless indicated ±0.1mm
CharacteristicsAOI version for the 3DC11LP with the same electrical and mechanical characteristics:- Offers 3 coils, oriented in the 3 space axes, assembled
in a single component with full functionality.- Suitable for automotive applications (Keyless
Entry Systems RTPMES), etc- Very good electrical performance in the smallest dimensions.- High stability in temperature (-40 ºC to +85 ºC).- High sensitivity values.- The inductivity in each axis can be customized
to achieve customer requirements.- Designs at lower frequencies, 20 kHz or 40 kHz, show
a very good electrical performance as well.- Allows the Automatic Optical Inspection in customers reflow
process since provides lateral meniscus in all sodering points.
Electrical specifications
This chart is a reference guide for the most common required values at working frequency of 125, 134 and 20 kHz. Any other inductance value at LF or tighter tolerances can be provided. Also can be supplied different inductance values in the different winding axis. Please contact our sales department for any inquiry.
CodeL
x,y,z (mH)
Qx,y
nom
Qznom
f (kHz)
SRFx,y (kHz) Min
SRFz (kHz) Min
DCRx(Ohm) Max
DCRy(Ohm) Max
DCRz(Ohm) Max
Cpxy(pF) Max
Cpxz(pF) Max
C pyz(pF) Max)
Sensitivity x,y (mV/A/m)
Min(*)
Sensitivity z (mV/A/m)
Min(*)
3DC11LP-AOI-0238J 2.38 25 19 125 700 750 50 55 83 25 10 10 40 38
3DC11LP-AOI-0477J 4.77 26 24 125 500 650 91 103 122 30 15 15 55 55
3DC11LP-AOI-0720J 7.20 20 20 125 300 450 127 143 220 40 15 15 80 70
3DC11LPAOI-C-0720J 7.20 20 20 134 300 450 127 143 220 40 15 15 80 70
3DC11LPAOI-A-3000J 30 6 6 20 115 200 605 704 539 50 15 15 24 20.5
1
4
1
2-3
Wz
8
Wy
Wx
5
6-7
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3DC11LP-AOIFSMD 3D11 Coil Low Profile AOI (foam option) 13X11.6X4.7 mm
Dimensions and recommended pad layout
CharacteristicsAOI version for the 3DC11LP with a label foam on top to improve mechanical characteristics:- Evolution of the 3DC11LP-AOI series.- The foam, placed on top of the part, absorbs
better the shocks and, thus, improves the mechanical performance of the piece.
- Very good electrical performance in the smallest dimensions.- High stability in temperature (-40 ºC to +85 ºC).- High sensitivity values.- The inductivity in each axis can be customized
to achieve customer requirements.- Designs at lower frequencies, 20 kHz or 40 kHz,
show a very good electrical performance as well.- Allows the Automatic Optical Inspection in customers reflow
process since provides lateral meniscus in all soldering points.
Electrical specifications
This chart is a reference guide for the most common required values at working frequency of 125, 134 and 20 kHz. Any other inductance value at LF or tighter tolerances can be provided. Also can be supplied different inductance values in the different winding axis. Please contact our sales department for any inquiry.
1
4
1
2-3
Wz
8
Wy
Wx
5
6-7
All dimensions in mm Pins coplanarity 0.10mm General Tolerances unless indicated ±0.1mm
CodeL
x,y,z (mH)
Qx,y
nom
Qznom
f (kHz)
SRFx,y (kHz) Min
SRFz (kHz) Min
DCRx(Ohm) Max
DCRy(Ohm) Max
DCRz(Ohm) Max
Cpxy(pF) Max
Cpxz(pF) Max
C pyz(pF) Max)
Sensitivity x,y (mV/A/m)
Min(*)
Sensitivity z (mV/A/m)
Min(*)
3DC11LP-AOIF-0238J 2.38 25 19 125 700 750 50 55 83 25 10 10 40 38
3DC11LP-AOIF-0477J 4.77 26 24 125 500 650 91 103 122 30 15 15 55 55
3DC11LP-AOIF-0720J 7.20 20 20 125 300 450 127 143 220 40 15 15 80 70
3DC11LPAOIF-C-0720J 7.20 20 20 134 300 450 127 143 220 40 15 15 80 70
3DC11LPAOIF-A-3000J 30 6 6 20 115 200 605 704 539 50 15 15 24 20.5
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3DC11LP-AOICSMD 3D11 Coil Low Profile AOI (cap option) 13X11.6X4.15 mm
Dimensions and recommended pad layout
All dimensions in mm Pins coplanarity 0.10mm General Tolerances unless indicated ±0.1mm
CharacteristicsAOI version for the 3DC11LP with a plastic cap on
top to improve winding lateral protection:- Evolution of the 3DC11LP-AOI series.- The cap, made of high quality plastic material,
improves the mechanical protection of the coil. - Very good electrical performance in the smallest dimensions.- High stability in temperature (-40 ºC to +85 ºC).- High sensitivity values.- The inductivity in each axis can be customized
to achieve customer requirements.- Designs at lower frequencies, 20 kHz or 40 kHz, show
a very good electrical performance as well.- Allows the Automatic Optical Inspection in customers reflow
process since provides lateral meniscus in all soldering points.
Electrical specifications
This chart is a reference guide for the most common required values at working frequency of 125, 134 and 20 kHz. Any other inductance value at LF or tighter tolerances can be provided. Also can be supplied different inductance values in the different winding axis. Please contact our sales department for any inquiry.
1
4
1
2-3
Wz
8
Wy
Wx
5
6-7
CodeL
x,y,z (mH)
Qx,y
nom
Qznom
f (kHz)
SRFx,y (kHz) Min
SRFz (kHz) Min
DCRx(Ohm) Max
DCRy(Ohm) Max
DCRz(Ohm) Max
Cpxy(pF) Max
Cpxz(pF) Max
C pyz(pF) Max)
Sensitivity x,y (mV/A/m)
Min(*)
Sensitivity z (mV/A/m)
Min(*)
3DC11LP-AOIC-0238J 2.38 25 19 125 700 750 50 55 83 25 10 10 40 38
3DC11LP-AOIC-0477J 4.77 26 24 125 500 650 91 103 122 30 15 15 55 55
3DC11LP-AOIC-0720J 7.20 20 20 125 300 450 127 143 220 40 15 15 80 70
3DC11LPAOIC-C-0720J 7.20 20 20 134 300 450 127 143 220 40 15 15 80 70
3DC11LPAOIC-A-3000J 30 6 6 20 115 200 605 704 539 50 15 15 24 20.5
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3DC11LPCAPSMD CAP 3D Coil 13x12.8x3.7 mm (2.38 mH - 7.2 mH) Low Profile
Characteristics- Evolution of the 3DC11LP series.- The cap, made of high quality plastic material, improves the mechanical protection to the coil.- Keyless Entry Systems is a typical application for this coil.- Very good electrical performance.- High stability in temperature (-40ºC to +85ºC).- High sensitivity values.- The inductance in each axis can be customized to ssachieve customer requirements.- Designs at lower frequencies, 20 kHz or 40 kHz, show a very good electrical performance as well.
Dimensions and recommended pad layout
All dimensions in mm
Tolerances unless otherwise specified: ±0.20mm
Electrical specifications
This chart is a reference guide for the most common required values at working frequency of 125 kHz. Any other inductance value at LF or tighter tolerances can be provided. Also can be supplied different inductance values in the different winding axis. Please contact our sales department for any inquiry.L and Q factor measured at 125 kHz, 1 Vac.Sensitivity measured with Helmholtz coils H=8.36 App/m @125 kHz. Contact us for measurement specification.SRF: Self Resonant Frequency of the coil.
P/NL
x,y,z (mH)
Q x,y,z Min
Fre-quency (kHz)
Cres (pF)
SRF x,y (kHz) Min
SRF z (kHz) Min
DCR x,y (Ω) Max
DCR z (Ω) Max
Sensitivity x,y,z (mVpp/App/m) Min
Length (mm)
Width (mm)
Height (mm)
3DC11CAP-0238J 2.38 17 125 680 450 850 60,5 82,5 40 13.0 12.8 3.7
3DC11CAP-0491J 4.91 15 125 330 300 700 111 150 60 13.0 12.8 3.7
3DC11CAP-0720J 7.20 15 125 225 250 500 176 209 85 13.0 12.8 3.7
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3DC11F SMD Foam Label 3D Coil 13x11.6x4.35mm(2.38mH - 7.2mH) Low Profile
Dimensions and recommended pad layout
Characteristics- Evolution of the 3DC11LP series.- The foam, placed on the top of the part, absorbs better the shocks and, thus, improves the mechanical cperformance of the piece. - Very good electrical performance.- High stability in temperature (-40ºC to +85ºC).- High sensitivity values.- The inductivity in each axis can be customized to achieve customer requirements.- Designs at lower frequencies, 20 kHz or 40 kHz, show a very good electrical performance as well.
All dimensions in mm
Tolerances unless otherwise specified: ±0.20mm
Pins coplanarity 0.15mm
Electrical specifications
This chart is a reference guide for the most common required values at working frequency of 125 kHz. Any other inductance value at LF or tighter tolerances can be provided. Also can be supplied different inductance values in the different winding axis. Please contact our sales department for any inquiry.L and Q factor measured at 125 kHz, 1 Vac.Sensitivity measured with Helmholtz coils H=8.36 App/m @125 kHz. Contact us for measurement specification.SRF: Self Resonant Frequency of the coil.
P/NL
x,y,z (mH)
Q x,y,z Min
Fre-quency (kHz)
Cres (pF)
SRF x,y (kHz) Min
SRF z (kHz) Min
DCR x,y (Ω) Max
DCR z (Ω) Max
Sensitivity x,y,z (mVpp/App/m) Min
Length (mm)
Width (mm)
Height (mm)
3DC11F-0238J 2.38 18 125 680 450 900 60,5 82,5 40 13.0 11.6 4.35
3DC11F-0491J 4.91 18 125 330 300 600 100 160 70 13.0 11.6 4.35
3DC11F-0720J 7.20 15 125 225 250 500 165 209 85 13.0 11.6 4.35
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3DC11AOI-05DRSMD 3D Coil 13x11.6x3.9mm (4.91-7.2mH) Half Drumcore
Characteristics- 3 coils in one component, oriented in the 3 space axes with full functionallity- Allows Automatic Optical Inspection- High sensitivity (>72mV/A/m) and isotropic performance- Availaible with different inductance values- Very stable electrical properties in full operational operative range (-40°C +125°C)- Max. Operating Temperature: +125°C- Suitable for Pick&Place SMD assembly
Dimensions
All dimensions in mm
Standard tolerances: ±0.1mm
Pad layout
Electrical specifications
Start of winding is indicated with the dot
Code L x,y,z (mH)
Qx,y min
Qz min
SRFx,y(kHz)Min
SRFz(kHz)Min
DCR x,y,z (Ω) Max
Sensitivity x,y(mVpp App/m)
min
Dimensions(mm) Max
3DC11AOI-05DR-0491J
4.91±5% 22 20 400 500 180 72 13 x 11.6 x 3.9
3DC11AOI-05DR-0720J
7.2±5% 20 18 380 480 150 80 13 x 11.6 x 3.9
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3DC11-DRSMD 3D Coil Drumcore 13x11.6x3.9mm (4.91-7.2mH)
Characteristics- 3 coils in one component, oriented in the 3 space axes with full functionallity- Allows Automatic Optical Inspection- High sensitivity (>90mV/A/m [X,Y]; >40mV/A/m [Z])- Availaible with different inductance values- Very stable electrical properties in full operational operative range (-40°C +125°C)- Max. Operating Temperature: +125°C- Suitable for Pick&Place SMD assembly
Dimensions
All dimensions in mm
Standard tolerances: ±0.1mm
Pad layout
Electrical specifications
Code L x,y,z (mH)
Qx,y min
Qz min
SRFx,y(kHz)Min
SRFz(kHz)Min
DCR x,y,z (Ω) Max
Sensitivity x,y (mVpp/
App/m)min
Sensitivity z(mVpp/App/m)
min
Dimensions(mm) Max
3DC11-DR-0491J 4.91±5% 30 42 380 740 168 90 40 13 x 11.6 x 3.9
3DC11-DR-0720J 7.2±5% 25 32 380 740 128 80 32 13 x 11.6 x 3.9
Start of winding is indicated with the dot
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3DC12EMSMD 3D Coil 12.9 x 12.5 x 3.65mm (4.91-7.2mH) Epoxy Moulding
Characteristics- 3 coils in one component, oriented in the 3 space axes with full functionallity- Allows Automatic Optical Inspection- Availaible with different inductance values- Max. Operating Temperature: +125°C- Suitable for Pick&Place SMD assembly
Dimensions
All dimensions in mm
Standard tolerances: ±0.1mm
Pad layout
Electrical specifications
Code L x,y,z (mH)
Qx,y min
Qz min
SRFx,y(kHz)Min
SRFz(kHz)Min
DCR x,y,z (Ω) Max
Sensitivity x,y(mVpp/App/m)
minDimensions(mm) Max
3DC12EM-0491J 4.91±5% 28 20 400 450 210 38 12.9 x 12.5 x 3.65
3DC12EM-0720J 7.2±5% 25 18 400 450 250 47 12.9 x 12.5 x 3.65
Electrical diagram
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3DC1515SMD 3D Coil 17.5x16x4 mm MAX (2.47 mH – 10mH)
Main applications Automotive.- Pasive keyless entry and Keyless Go systems.- TPMS with wake up functions. Industrial.- Access control.- Tracking devices.
Characteristics- This 3D coil, RFID innovate component, highlights for its high sensitivity, low profile and small size.- Ensures optimal field sensing regardless position.- Best choice for Keyless Entry Systems. - High drop test resistance (up to 500 times 1m) due to a maximized pin area.- High stability in temperature (-40ºC to +85ºC).- Isotropic version available.- With cover cap or labeled.- Designed for 125 kHz and 134 kHz.Dimensions and recommended pad layout
All dimensions in mm
Tolerances unless otherwise specified: ±0.20mm
Pins coplanarity 0.15mm
P/N L x,y,z (mH)
Cres (pF)Qx,y typ
SRFx,y(KHz) min
SRFz(KHz) min
RDC max x,y (Ω)
RDC max z(Ω)
Sensitivity x,y,z (mVpp/App/m)
3DC15-0247J 2.47 656 >23 400 900 75 75 >65
3DC15-0345J 3.45 470 >27 300 700 77 116 >67
3DC15-0405J 4.05 400 >27 400 800 98 98 >72
3DC15-0477J 4.77 340 >28 300 600 100 136 >80
3DC15-0491J 4.91 330 >27 300 700 100 140 >85
3DC15-0720J 7.20 225 >30 250 600 120 170 >95
3DC15-1000J 10.00 162 >25 220 500 160 275 >140
Electrical specifications
This chart is a reference guide for the most common required values at working frequency of 125 kHz. Any other inductance value at LF or tighter tolerances can be provided. Also can be supplied different inductance values in the different winding axis. Please contact our sales department for any inquiry.L and Q factor measured at 125 kHz, 1 Vac.Sensitivity measured with Helmholtz coils H=1.27 App/m @125 kHz. Contact us for measurement specification.SRF: Self Resonant Frequency of the coil.
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3DC15CAPSMD CAP 3D Coil 17.5x16x4.30 mm MAX (2.47 mH – 7.2 mH)
Dimensions and recommended pad layout
Characteristics- Evolution of the 3DC15 series.- The cap provides an additional mechanical protection to the coil, combined with a high performance in temperature.- Also, the cap allows an easier handling and placing aof the part.- High drop test resistance (up to 500 times 1m) due ato a maximized pin area.- High stability in temperature (-40ºC to +85ºC).- Isotropic version available.- Designed for 125 kHz and 134 kHz.
All dimensions in mm
Tolerances unless otherwise specified: ±0.20mm
Pins coplanarity 0.15mm
Electrical specifications
This chart is a reference guide for the most common required values at working frequency of 125 kHz. Any other inductance value at LF or tighter tolerances can be provided. Also can be supplied different inductance values in the different winding axis. Please contact our sales department for any inquiry.L and Q factor measured at 125 kHz, 1 Vac.Sensitivity measured with Helmholtz coils H=8.36 App/m @125 kHz. Contact us for measurement specification.SRF: Self Resonant Frequency of the coil.
CódigoL
x,y,z (mH)
Q x,y,z Min
Fre-quency (kHz)
Cres (pF)
SRF x,y (kHz) Min
SRF z (kHz) Min
DCR x,y (Ω) Max
DCR z (Ω) Max
Sensitivity x,y,z (mVpp/App/m) Min
Length (mm)
Width (mm)
Height (mm)
3DC15CAP-0247J 2.47 22 125 656 400 900 75 75 65 16.0 17.5 4.3
3DC15CAP-0491J 4.91 25 125 330 250 550 100 140 70 16.0 17.5 4.3
3DC15CAP-0720J 7.20 20 125 225 250 550 120 230 95 16.0 17.5 4.3
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3DC15FSMD Foam Label 3D Coil 17.5x15.5x5 mm MAX (2.47 mH – 7.2 mH)
Dimensions and recommended pad layout
Characteristics- Evolution of the 3DC15 series.- The foam, placed on the top of the part, absorbs better the shocks and, thus, improves the mechanical performance of the piece. - High drop test resistance (up to 500 times 1m) due to a maximized pin area.- High stability in temperature (-40ºC to +85ºC).- Isotropic version available.- Designed for 125 kHz and 134 kHz.
All dimensions in mm
Tolerances unless otherwise specified: ±0.20mm
Pins coplanarity 0.15mm
Electrical specifications
This chart is a reference guide for the most common required values at working frequency of 125 kHz. Any other inductance value at LF or tighter tolerances can be provided. Also can be supplied different inductance values in the different winding axis. Please contact our sales department for any inquiry.L and Q factor measured at 125 kHz, 1 Vac.Sensitivity measured with Helmholtz coils H=8.36 App/m @125 kHz. Contact us for measurement specification.SRF: Self Resonant Frequency of the coil.
P/NL
x,y,z (mH)
Q x,y,z Min
Fre-quency (kHz)
Cres (pF)
SRF x,y (kHz) Min
SRF z (kHz) Min
DCR x,y (Ω) Max
DCR z (Ω) Max
Sensitivity x,y,z (mVpp/App/m) Min
Length (mm)
Width (mm)
Height (mm)
3DC15F-0247J 2.47 22 125 656 400 900 75 75 65 15.5 17.5 5
3DC15F-0491J 4.91 23 125 330 300 700 100 140 85 15.5 17.5 5
3DC15F-0720J 7.20 25 125 225 250 600 120 170 95 15.5 17.5 5
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TC0502HFNFC SMD antenna 5.2x2.4x2.7mm MAX
FeaturesThis component is an SMD ferrite antenna suitable for signal reception/transmission at 13.56MHz.TC0502HF is a highly sensitive and compact solution specially designed for those NFC applications where size of components is critical.TC0502HF series is offered with 2.0 and 4.7 μH (@13,56MHz) inductance values and can be custom according to customer’s specification. Characteristics- This component is functional to 13.56MHz (NFC applications)- Can be used in RFID applications with ISO15693 (vicinity: I-Code), ISO 14443A&B (proximity: MIFARE) interface, ISO 18092 and Felica.- Very small size: 5.2x2.4x2.7mm- Good mechanical performance- Very stable electrical properties in full operational operative range (-40°C +125°C)- Wire: H, 125°C solderable.- Terminals: Ag-Ni-Sn100- Max. Operating Temperature: +125°C- Suitable for Pick&Place SMD assembly
Dimensions
All dimensions in mmStandard tolerances: ±0.1mm
Electrical specifications (1μH – 20μH)
CodeL
(μH)
Q minCres(pF)
SRF (MHz) Min
DRC (Ω) Max
Dimensions(mm) Max
TC0502HF-0002K 2.0 ± 10% 16 68 25 0.935 5.2 x 2.4 x 2.7
TC0502HF-00047K 4.7 ± 10% 18 29 25 1.540 5.2 x 2.4 x 2.7
Inductance, Q factor, DCR and SRF measured with an LCR meter HP 4887A
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SDTR1103-HF2SMD Transponder for NFC applications 11.8x3.6x4.2.5 mm MAX (1 mH – 20 mH)
FeaturesThe SDTR1103-HF2 Series of Surface Mount ferrite wound inductor is the best solution when high electrical and mechanical performance is needed. Its length and cross sectional area are optimized to achieve the maximum sensitivity in the coil axis.The construction of the coil offer high mechanical performance due to the plastic base and ferrite laminate. Characteristics- High stability in temperature- Operation temperature (-40ºC to +85 ºC)- Good mechanical performance.- Drop test: more than 500 times x 1 meter.- Taped & Reel: 3000pcs / reel.
Applications- RFID readers at 13.56MHz.- NFC applications at 13.56MHz.
Dimensions
All dimensions in mm
Electrical specifications (1μH – 20μH)
CodeL @13,56 MHz
(μH)
Q min. @13,56MHz
SRF (MHz) Min
DRC Max (Ω)
SDTR1103-HF2-0001K 1.0 ± 10% 20 25 0.286
SDTR1103-HF2-0002K 2.0 ± 10% 20 25 0.4345
SDTR1103-HF2-0003K 3.0 ± 10% 20 25 0.506
SDTR1103-HF2-0006K 6.00 ± 10% 20 25 0.704
SDTR1103-HF2-0020K 20.00 ± 10% 20 25 1.32
Inductance, Q factor, DCR and SRF measured with an LCR meter HP 4887A
Schematic Diagram
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3DC15-HFSMD 3D Coil 17.5x16.0x4.0 mm MAX (3 mH – 18 mH)
FeaturesIn the last few years, Communication technology by Near Field Communications (NFC) has experienced a lot of improvements. PREMO enlarges its NFC product range with the new 3DC15-HF series. A combination of 3 single coils oriented in the 3 space axis. The new 3D coil from PREMO RFID offers the possibility of mounting a single component instead of three, thus reducing cost, saving PCB space and increasing the circuit reliability. Sensitivity, low profile and small size are the key of this RFID innovative component. Best choice for keyless entry systems the three tri-rectangular windings ensure optimum field sensing regardless position.
Characteristics- Size: 17.5x16.0x4.0 mm- High drop test resistance (up to 500 times 1 m)
due to a maximized pin area.- High stability in temperatur(-40ºC to +85ºC).- Isotropic version available.- With cover cap or labelled.- Taped & Reeled.- Designed for 13,56MHz.
ApplicationsNFC applications
Dimensions
All dimensions in mm
The specification chart is a reference guide for the most common required values at working frequencies of 13,56MHz. Any other inductance value at HF or tighter tolerances can be provided. Please contact our sales deparment for any inquiry.
Electrical specifications
Code L x,y,z (μH)
Lp (μH)
Q minx,y
Q min
z
SRF y,z (mHz) Min
DCR x,y (Ω) Max
DCR z (Ω) Max
Dimensions(mm) Max
3DC15HF-0003K 3 ± 10% 1 ± 10% 24 18 25 352 561 17.5 x 16.0 x 4.0
3DC15HF-0006K 6 ± 10% 2 ± 10% 20 15 25 506 737 17.5 x 16.0 x 4.0
3DC15HF-0009K 9 ± 10% 3 ± 10% 20 10 25 594 836 17.5 x 16.0 x 4.0
3DC15HF-0018K 18 ± 10% 6 ± 10% 15 6 25 836 1012 17.5 x 16.0 x 4.0
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4DC15NF4D-COIL 125kHz-PKE, 13,56MHz-NFC
FeaturesThe new 4Dcoil Series, provides three orthogonal coils for working at low frequency (standard 125 kHz) and an additional coil for working at high frequency (standard 13,56 MHz).With very stable properties in a wide range of temperature (-40ºC to +85ºC). Its efficient design of low frequency coils has very high sensitivity and excellent isotropy. The inductance value is 4.77mH @125kHz (other values under request). Inductance value of high frequency (NFC) antenna is 0.85uH @13.56MHz.
Characteristics- This component is functional at 125kHz and
13.56MHz (NFC applications)- Can be used in RFID applications with ISO15693
(vicinity: I-Code), ISO 14443A&B (proximity: MIFARE) interface, ISO 18092 and Felica.
- Good mechanical performance- Suitable for Pick&Place SMD assembly
Dimensions
All dimensions in mm Pins coplanarity 0,15mm
Electrical specifications
Code L x,y,z,l(mH)
Lz2(μH)
Q minx,y,z1
Q minz2
SRFx,y(kHz)Min
SRFz1(kHz)Min
SRFz2(MHz)
Min
DCRxy(mΩ)Max
DCRz1(mΩ)Max
DCRz2(mΩ)Max
4DC15NF-0477J 4,77 ± 5% 0,85 ± 10% 24 4,5 250 350 25 99 132 4,95
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This chart is a reference guide for the most common required values at working frequency of 125 kHz. Any other inductance value at LF or tighter tolerances can be provided. Also can be supplied different inductance values in the different winding axis. Please contact our sales department for any inquiry.Sensitivity measured with Helmholtz coils H=8.36 App/m @125 kHz. Contact us for measurement specification.SRF: Self Resonant Frequency of the coil.
2D1D15SMD 3D Coil 17.5x16.0x4.0 mm MAX
FeaturesThe 2D1D15 integrates in the same component NFC and LF performance. Since in the last few years, communication technology by Near Field Communication (NFC) has experienced a lot of improvements and still Low Frequency (LF) is widely used for security communications, this component offers the possibility to work with both communication ranges. A combination of 2 single coils in LF and one single coil in NFC oriented in the 3 space axis offers the possibility of mounting a single component instead of three and working with the two frequency ranges.
Characteristics- Size: 17.5 x 16.0 x 4.0mm MAX- High drop test resistance (up to 500 times 1
m) due to a maximized pin area. - High stability in temperature (-40ºC to
+85ºC). - With cover cap or labelled. - Taped & Reeled. - Designed for 125KHz,134KHz and 13.56 MHz
Dimensions
All dimensions in mm
Pins coplanarity 0,15mm
Electrical specifications
Code L x,y(mH)
Lz(μH)
Qx,yMin
QzMin
fxy(kHz)
Fz(MHz)
SRFx,y(kHz) Min
SRFz(MHz)
Min
DCRx,y(Ω) Max
DCRz(Ω) Max
Sensitivity x,y (mVpp/App/m)
Min
Length (mm)
Width (mm)
Height (mm)
2D1D15-0477J 4.77 6 23 15 125 13.56 250 25 95 0.75 77 16.0 17.5 4.0
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ZC1003HFSMD Z axis for NFC applications 10 x 10 x 3.2 mm
FeaturesThis component is a Z-axis SMD ferrite antenna suitable for signal reception/transmission at 13.56MHz.
ZC1003HF series is a highly sensitive and compact solution (10x10x3.1mm) specially designed for those NFC applications where size of components is critical. This innovative antenna requires less board space compared with antennas designed for a PCB and offers larger reading distances. Furthermore, this Z-axis coil’s design offers an outstanding electrical performance and mechanical robustness, providing an excellent reliability. ZC1003HF series is offered with 2,5µH-4,5µH (@13.56MHz) inductance value and can be custom according to customer’s specifications.
Characteristics- Very good electrical and mechanical performance.- High performance NiZn ferrite core material
(>106 Ohm•m) - High stability in temperature: (-40ºC to +100ºC).- High sensitivity values achieved with very good
thermal performance.- RoHS compliant
Applications- This component is functional to 13,56 MHz
(NFC applications)- Can be used in RFID applications with ISO15693
(vicinity: I-CODE), ISO 14443A&B (proximity: MIFARE) interface, ISO18092, and Felica.
Dimensions
All dimensions in mm
The specification chart is a reference guide for the most common required values at working frequencies of 13,56MHz. Any other inductance value at HF or tighter tolerances can be provided. Please contact our sales deparment for any inquiry.
Electrical specifications
Code L @13,56 MHz (μH)Q min.
@13,56MHzSRF min.(MHz) DCR.(Ohm)
ZC1003HF-00022K 2.2 ± 10% 80 25 0.130 ± 10%
ZC1003HF-00045K 4.5 ± 10% 80 25 0.380 ± 10%
EMITTER ANTENNAS
Uncoated AntennasPKE Emitter Antennas
Overmoulded AntennasLightning Detector Antennas
Long Range Antenna
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EMITTER ANTENNASIntroduction
Passive Keyless Entry system, is a generic term for an automotive technology which allows a driver to lock and unlock a vehicle without using the corresponding keyfob buttons. Once a driver enters a vehicle with an equipped PKE or Keyless Go keyfob (or cardkey), they have the ability to start and stop the engine, without inserting the SmartKey. A transponder antenna built within the keyfob allows the vehicle to identify a driver.
The SMD components located in the smart key are required high levels of sensitivity, good temperature stability and robustness against mechanical shocks and drops.
The system works by having a series of LF (low frequency 125 kHz, transmitting antennas both inside and outside the vehicle. The external antennas are located in the door handles, mirrors, or trunk position.
When the vehicle is triggered either by pulling the handle or touching the handle an LF signal is transmitted from the antennas to the key. The key becomes activated if it is sufficiently close and it transmits its ID back to the vehicle via RF (Radio frequency >300 MHz) to a receiver located in the vehicle. If the key has the correct ID the module unlocks the vehicle.
PREMO SolutionsPREMO’s emitter antennas (catalog standard values) are available for LF 20, 125 and 134.2kHz operating frequencies with different inductance/ capacitor combinations and appropriate current capability. All members of the KGEA series (type BFCR, BFCWX, BFCAM, etc.) have been developed using special ferrite (low losses) and capacitors dedicated for high pulse applications (COG and low ESR). The antennas meet the AEC-Q200 (specific automotive quality standard)
and IP68 standards due to their specific packaging (rugged plastic box filled with polyurethane foam). As standard version these antennas are delivered without connector. If requested by the customer, a connector can be added during production according to the customer’s specification (waterproof or non-waterproof).
PREMO is developing customized antennas using different types of technologies over-molding low pressure and high pressure depending on the mechanical requirements and waterproof IP degree required by the customer.
For Door Handle Antennas, we also have the ability to integrate in a unique connector (6ways), the Antenna LF + Switch + LED as a single whole.
PREMO also offers the possibility of integrating the connector into the antenna by fully over-molding by method of high pressure or external housing integrated connector with filled with Polyurethane Plastic.
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EMITTER ANTENNAS Rapid Guide
Product List
Product List
Description KGEA-WT SEA
Size LxWxH (mm) 68x7x3 / 80x19x4 mm 50.8x10.6x6.8 mm
Construction Ferrite + heat shrink tube Housing+SMD terminals
Production status In mass production In mass production
Applications Reader RF antenna Reader RF antenna
Electrical diagram L (coil) L (coil)
Working Resonant Frequencies @20kHz, @125kHz and @134,2 Khz @20kHz, @125kHz and @134,2 kHz
Products range Radio Frequency Antenna Radio Frequency Antenna
Temperature stability -40ºC to +85 ºC -40ºC to 85ºC
Characteristics:High stability in temperature. Different sizes for different reading distances
Very small size, high stability in temperature and SMD mounting
Notes: Standard Test AEC-Q200 Standard Test AEC-Q200
Page number 61 62
Description KGEA-SMD KGEA-TH
Size LxWxH (mm) 75x15x6.3 mm 75x15x6.3 mm
Construction Housing+SMD terminals Housing + Through-hole terminals
Production status In mass production In mass production
Applications RKES, PKES, RTPMS RKES, PKES, RTPMS
Electrical diagram L (coil) L(coil)
Working Resonant Frequencies @20kHz, @125kHz and @134,2 kHz @20kHz, @125kHz and @134,2 kHz
Products range SMD Emitter Antenna Through-hole emitter antenna
Temperature stability -40ºC to 85ºC -40ºC to 85ºC
Characteristics:Small size, high stability in temperature and SMD mounting
Small size, high stability in temperatu-re and mechanical robustness , THT mounting
Notes: Standard Test AEC-Q200 Standard Test AEC-Q200
Page number 63 64
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EMITTER ANTENNAS Rapid Guide
Product List
Description KGEA-BFCR KGEA-BFCWX
Size LxWxH (mm) 145x26x12 mm 103x20x9 mm
Construction Housing + Potting + Connector Housing + Potting + Connector
Production status In mass production In mass production
Applications RKES, PKES RKES, PKES
Electrical diagram L+C in series L+C in series
Working Resonant Frequencies @20kHz, @125kHz and @134,2 kHz @125kHz and @134,2 kHz
Products range Door handler and Interior Antenna Door handler and Interior Antenna
Temperature stability 40ºC to 85ºC -40ºC to 85ºC
Characteristics:Long reading distance, IP67 and connector located outside assembly housing plastic base
Long emitting-reading distances in the smallest volume, IP67 and connector located outside assembly housing plastic base
Notes:Optional parallel or serial Resistor. Standard Test AEC-Q200
Optional parallel or serial Resistor. Standard Test AEC-Q200
Page number 65 66
Product List
Description KGEA-BFCAM KCA
Size LxWxH (mm) 85x16.8x7 mm 38x49x21 mm
Construction Housing + Potting + Connector Overmoulded + Connector
Production status In mass production In mass production
Applications RKES, PKES Immbolizer
Electrical diagram L+C in series L (Air coil)
Working Resonant Frequencies @125kHz and @134,2 kHz @20kHz, @125kHz and @134,2 Khz
Products range Door handler and Interior Antenna Keylock Cylinder Antenna
Temperature stability -40ºC to 85ºC -40ºC to 85ºC
Characteristics:Very low profile transmitter antenna Aftermarket
IP67 and connector located outside assembly overmoulding
Notes: Standard Test AEC-Q200 Standard Test AEC-Q200
Page number 67 68
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EMITTER ANTENNAS Rapid Guide
Product List
Description KGEA-HB
Size LxWxH (mm) 116,75x37x25 mm
Construction Ultrasonic Welding
Production status In mass production
Applications RKES, PKES
Electrical diagram L+C in series
Working Resonant Frequencies @125KHz and 134.2kHz
Products rangeDoor handler, Interior antenna and trunk or bumper antenna
Temperature stability -40ºC to 85ºC
Characteristics:Long reading distance , IP67, Connector integrated in the enclosure
Notes:Optional parallel or serial Resistor. Standard Test AEC-Q200
Page number 69
Description KGEA- AF / KGEA-AFC
Size LxWxH (mm)L: 200-300 until 500mm.W x H: 22 x 12mm.
ConstructionBox Integrated Connector+ Tube PBT + Module LF (Ferrite or Ferrite+Cap)+ Support legs
Production status In prototype
Applications RKES, PKES
Electrical diagram L (only inductance) or L+C in series
Working Resonant Frequencies @20kHz, @125kHz @134,2kHz
Products range Long range antenna
Temperature stability (-40 ->+85 ºC)
Characteristics:
Flexible Antenna and robustness mechanical. Very large length and Long reading distance.IP67, Connector integrated in the enclosure
Notes: Standard AEC-Q200
Page number 70
Product List
RKES:Remote keyless Entry System. PKES: Passive keyless Entry System RTPMS: Remote Tyre Pressure Monitoring System.
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KGEA-WT Keyless go emitter antenna winding heat shrink tubeCharacteristicsThis part can offer the possibility to welding directly on PCB or the customer directly over-molded for different applications of readers RF antennas and thus far reducing cost. The emitter antenna is covered by heat shrink tube to avoid handling problems.- High reading distance depending on the different sizes of the ferrites.- Designed for a range of working frequency LF (20kHz, 125kHz and 134,2kHz).- Antenna current. Max. 4 App, Duty 30%- High stability in temperature (-40ºC to +85ºC).
Dimensions
(33 µH - 500 µH)
L=Length ferrite coreW=Width ferrite core.H=Height ferrite core.
All dimensions are in mm
Electrical specifications
Tolerance J=5%.
This chart is a reference guide for the most common required values at working frequency of 20 kHz, 125 kHz or 134.2 kHz. Any other inductance value at LF or tighter tolerances can be provided. Please contact our sales department for any inquiry.Sensitivity measured with Helmholtz coils H=8.36 App/m @125 kHz. Contact us for measurement specification.
P/N L (mH) Q SRF (MHz) Ipp máx (Amp)(*) Freq. (kHz)KGEAWT680703B0240J 0.240 >100 >2.15 2-4 125@
KGEAWT680703B0322J 0.332 >115 >2.15 2-4 125@
KGEAWT680703B0500J 0.500 >120 >2.15 2-4 125@
KGEAWT680703C0300J 0.300 >125 >2.15 2-4 134,2@
KGEAWT680703C0426J 0.426 >125 >2.15 2-4 134,2@
KGEAWT801904B0322J 0.322 >110 >2.15 2-4 125@
KGEAWT801904B0500J 0.500 >120 >2.15 2-4 125@
KGEAWT801904B0345J 0.345 >100 > 2.8 2-4 125@
Nomenclature Description
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SEA SMD Small Emitter AntennaCharacteristicsThis part can be used as emitter antenna of a RF application in low frequency range and can be mounted like any other SMD component, directly to the PCB. Some use example: telemetric, telecontrol, atomic watch, PKE, etc.Size of this component compared to other existing emitter antennas is very small.
Mechanical dimensions
Dimensions in mm
Nomenclature description
50.80x10.60x6.80mm (33 uH - 470 uH)
- Small size (50.8 x 10.6 x 6.8).- High stability in temperature (-40ºC up to +85ºC).- Wide working range (20kHz - 150KHz).- SMD mounting.- Custom inductance value under demand.
Electrical diagram and recommended pad layout
Add under the chart: This chart is a reference guide for the most common required values at working frequency of 20 kHz, 125 kHz or 134.2 kHz. Any other inductance value at LF or tighter tolerances can be provided. Please contact our sales department for any inquiry.Sensitivity measured with Helmholtz coils H=8.36 App/m @125 kHz. Contact us for measurement specification
Electrical specifications
P/N L (mH)
ToleranceCres (nF)
SRF (MHz)
Freq. (kHz)
SEA-A-0192J 0.192 5% 330 >3 20@
SEA-B-0345J 0.345 5% 4.7 >3 125@
SEA-B-0500J 0.500 5% 3.3 >3 125@
SEA-B-0734J 0.734 5% 2.2 >3 125@
SEA-C-0300J 0.300 5% 4.7 >3 134,2@
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KGEA-SMDKeyless go emitter antenna smd 75x15x6.3mm (33 µH - 500 µH)
Characteristics This emitter antenna is specifically designed for applications in which it is necessary to get a big read range with a minimum size on PCB in low frequency base stations. It is a perfect solution to be used in vehicles passive entry applications (PE, passive entry) or TPMS (Tire Pressure Monitoring system). It has 75mm x 15mm x 6.3mm for SMD assembly. The module antenna is formed only by ferrite core wound inside of a plastic housing.
Dimensions and Pad layout
Nomenclature descriptionElectrical diagram
- High reading distance with minimum size.- Designed for a range of working frequency LF (20kHz, 125kHz and 134,2kHz).- Antenna current. Max. 4 App, Duty 30%- High stability in temperature (- 40ºC to +85ºC).- SMD mounting and customer inductance value under demand.
All dimensions are in mm
KGEA-SMD
Electrical specifications
P/N L (mH) Cres (nF) Q SRF (MHz) Freq. (kHz)
KGEA-SMD-B-0108J 0.108 15,00 >110 >3 125@
KGEA-SMD-B-0162J 0.162 10,00 >125 >3 125@
KGEA-SMD-B-0240J 0.240 6,8 >125 >3 125@
KGEA-SMD-B-0345J 0.345 4,7 >125 >3 125@
KGEA-SMD-B-0500J 0.500 3,3 >125 >3 125@
KGEA-SMD-C-0141J 0.141 10,00 >125 >3 134,2@
KGEA-SMD-C-0207J 0.207 6,8 >130 >3 134,2@
KGEA-SMD-C-0300J 0.300 4,7 >130 >3 134,2@
KGEA-SMD-C-0426J 0.426 3,3 >130 >3 134,2@
Tolerance J=5%.
This chart is a reference guide for the most common required values at working frequency of 20 kHz, 125 kHz or 134.2 kHz. Any other inductance value at LF or tighter tolerances can be provided. Please contact our sales department for any inquiry. Sen-sitivity measured with Helmholtz coils H=8.36 App/m @125 kHz. Contact us for measurement specification.
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KGEA-THKeyless go emitter antenna through-hole versión
75x16x6.3mm (33µH – 500µH)
Characteristics:This emitter antenna is specifically designed for applications in which it is necessary to get a big read range with a minimum size on PCB in low frequency base stations. It is a perfect solution to be used in vehicles passive entry applications (PE, passive entry) or TPMS (Tire Pressure Monitoring system), especially when high mechanical stress is involved.
Dimensions and recommended pad layout
It has 75mm x 16mm x 6.3mm for THT (Through hole Technology) assembly. The module antenna is formed only by ferrite core wound inside of a plastic housing.- High reading distance with minimum size.- Designed for a range of working frequency LF (20kHz, 125kHz and 134,2kHz).- Antenna current. Max. 4 App, Duty 30%- High stability in temperature (- 40ºC to +85ºC).- THT mounting and customer inductance value under demand.
Nomenclature description
Electrical diagram
P/N L (mH) Cres (nF) QSRF
(MHz)Freq. (kHz)
KGEA-TH-B-0108J 0.108 15.00 >110 >3 125@
KGEA-TH-B-0162J 0.162 10.00 >125 >3 125@
KGEA-TH-B-0240J 0.240 6.8 >125 >3 125@
KGEA-TH-B-0345J 0.345 4.7 >125 >3 125@
KGEA-TH-B-0500J 0.500 3.3 >125 >3 125@
KGEA-TH-C-0141J 0.141 10.00 >125 >3 134,2@
KGEA-TH-C-0207J 0.207 6.8 >130 >3 134,2@
KGEA-TH-C-0300J 0.300 4.7 >130 >3 134,2@
KGEA-TH-C-0426J 0.426 3.3 >130 >3 134,2@
This chart is a reference guide for the most common required values at
working frequency of 20 kHz, 125 kHz or 134.2 kHz. Any other induc-tance value at LF or tighter tolerances can be provided. Please contact our sales department for any inquiry.
Electrical Specifications:
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KGEA-BFCREmitter antenna housing plastic base with resin and outside connector unsealed & sealedCharacteristics: The antenna KGEA-BFCR is designed for emission of a LF field to allow hands free access towards the Customer Device Identification for automotive application. This type antenna is inserted in the vehicle being integrated into the Access and Start Hand Free
Nomenclature description Electrical diagram
145x26x12mm (33 µH - 500 µH)
subsystem for requirements Passive Entry and Remote keyless Go System. Housing plastic base (materials PBT, PA-66 or ABS) assuring extreme conditions of humidity, liquids, substance and extreme environments. The connector (sealed and unsealed) is optional and it can be customized to required features. Designed to allow long emitting-reading distances in the smallest volume. - Ideally used in keyless smart entry system - Transmitting low frequency LF (20kHz, 125kHz and 134kHz). - Low tolerances in the resonance frequency LC- High stability in temperature (-40ºC up to +85ºC).- Connector located outside assembly housing plastic base (Optional).- Long reading distances and average current 4-8App.- Strong anchor points which provide an easy assembly and will ensure mechanical robustness.- Custom LCR value under demand.
L: Ferrite core coil inductanceR: Copper resistance and connectionC: Tunning internal capacitor NPORdc: Optional parallel resistor Z: External impedance
KGEA-BFCR
Mechanical dimensions
All dimensions are in mm
P/N L (mH)
Cres (nF)
QSRF
(MHz)Freq. (kHz)
KGEA-BFCR-B-0500J 0.500 3.3 >125 >3 125@
KGEA-BFCR-C-0426J 0.426 3,3 >125 >3 134,2@
KGEA-BFCR-A-0161J 0.161 330 >60 >1 20@
This chart is a reference guide for the most common required values at working frequency of 125 kHz. Any other inductance value at LF or tighter tolerances can be provided. Please contact our sales department for any inquiry.Sensitivity measured with Helmholtz coils H=8.36 App/m @125 kHz. Contact us for measurement specification
Electrical specifications
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KGEA-BFCWX Emitter Antenna housing plastic base-potted and outside connector unsealed & sealed.
103x20x9 mm ( 33 µH – 500 µH )
CharacteristicsThe antenna KGEA-BFCWX is designed for emission of a LF field to allow hands free access towards the Customer Device Identification for automotive application. This type antenna is inserted in the vehicle being integrated into the Access and Start Hand Free subsystem for requirements Passive Entry and Remote keyless Go System. Housing plastic base (materials PBT, PA-66 or ABS) assuring extreme conditions of humidity, liquids, substance and extreme environments. The antenna concept is similar to KGEA-BFCR series, but smaller in size.The connector (sealed and unsealed) is optional and it can be customized to required features. Designed to allow long emitting-reading distances in the smallest volume. - Ideally used in keyless smart entry system - Transmitting low frequency LF (20kHz, 125kHz and 134kHz). - Low tolerances in the resonance frequency LC- High stability in temperature (-40ºC up to +85ºC).- Connector located outside assembly housing plastic base (Optional).- Long reading distances and average current 2-4App.- Strong anchor points which provide an easy assembly and will ensure mechanical robustness.- Custom LCR value under demand.Mechanical dimensions
Electrical specifications
P/N L (mH)Cres (nF)
QSRF
(MHz)Freq. (kHz)
KGEA-BFCWX-B-0500J 0.500 3.3 >115 >3 125@
KGEA-BFCWX-C-0426J 0.426 3.3 >100 >3 134,2@
The specification chart is a reference gui-de for the most common required values at working frequencies of 125 kHz, 20 kHz and 134.2 kHz. Any other inductan-ce value at LF or tighter tolerances can be provided. Please contact our sales de-partment for any inquiry.
Nomenclature description
Electrical diagram
L: Ferrite core coil inductanceR: Copper resistance and connectionC: Tunning internal capacitor NPORdc: Optional parallel resistor Z: External impedance
All Dimensions in mmGeneral Tolerances ± 0.1 mm
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KGEA-BFCAM Keyless Go Emitter Antenna Low Profile Potted Unsealed & Sealed Connector
85x16.8x7 mm ( 33 µH – 500 µH)
CharacteristicsThis is a new low profile antenna specially designed to assembly in the aftermarket operation.Antenna concept is similar to those KGEA-BFC series, but smaller in size (ferrite + capacitor in a box potted) and easy to joint to anywhere by a simple adhesive tape.These kind of antennas provide a cable with a customized length without connector in its standard version (connector can be assembly under demand).Several combinations of inductance and capacitor values are offered as standard versions. Any other combination can be provided, together with the possibility of fully customized design, depending mainly of capacitor size available.Ideally used access and start Hand Free subsystem for Passive Entry keyless Go System Requirements for automotive application. - Low profile size. - Low tolerances in the resonance frequency LC- High stability in temperature (-40ºC up to +85ºC).- Transmitting low frequency LF (20kHz, 125kHz and 134kHz). - Long reading distances and average current 2-4App.- Custom LCR value under demand.
L: Ferrite core coil inductance R: Copper resistance and connection C: Tunning internal capacitor NPO Z: External impedance
Electrical specifications
P/N L (mH)Cres (nF)
QSRF
(MHz)Freq. (kHz)
KGEA-BFCAM-B-0500J 0.500 3.34.7 >115 >3 125@
KGEA-BFCAM-C-0426J 0.426 3.3 >100 >3 134,2@
The specification chart is a reference guide for the most common required values at working frequencies of 125 kHz, 20 kHz and 134.2 kHz. Any other inductance value at LF or tighter tole-rances can be provided. Please contact our sales department for any inquiry.
Mechanical dimensions
L> 20mm tolerance ± 0.5mm10< L ≤ 20mm tolerance ± 0.2mm
L ≤ 10mm tolerance ± 0.1mm
Nomenclature description
Schematic Diagram
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KCAKeylock cylinder antenna 38x49x21mm (30 uH - 1000 uH)
CharacteristicsThe Keylock Cylinder Antenna is designed to emit a RF signal and identify the customer’s key in the ignition system. This antenna is to be placed in the Ignition Switch Lock Cylinder, inside the vehicle. Since it can be exposed to the final customer, the antenna finishing fulfils the highest quality requirements.
Mechanical dimensions Nomenclature description
KCA
Overmoulded with PA66 or PBT-GF30% assuring the IP67 classification.Output wires can be customized to customer’s design. Inside the overmoulding, the inductance, resistance and quality factor can be customized to required values.- LF transponder Emitter/Transmitter antenna.- Ideally used in the Ignition Switch Key Cylinder.- Free wire or special connectors can be provided.- The enclosure will provide mounting features into the vehicle and will ensure the mechanical robustness.- Custom L and R value under demand.
Electrical specifications
This chart is a reference guide for the most common required values at working frequency of 20, 125 and 134 kHz. Any other inductance value at LF or tighter tolerances can be provided.Please contact our sales department for any inquiry.Sensitivity measured with Helmholtz coils H=8.36 Ap/m @125 kHz. Contact Tech. department. for measurement specification.
P/N L (mH) QRdc (Ω)
SRF (MHz)
Freq. (kHz)
KCA-B-0345J 0.345 >40 4.4 >0.8 125@
KCA-B-1080J 1.080 >50 7.8 >0.6 125@
L: Ferrite core coil inductanceR: Copper resistance and connectionZ: External impedance
Electrical diagram
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Mechanical dimensions All dimensions are in mm
KGEA-HBLF interior antenna shape h bridgeFeatures- Transmitting low frequency. - LF emitter antenna assembly by
method Ultrasonic Welding. - The connector integrated in the external
housing plastic (waterproof connector).- Shape H bridge (best performance
electrical on metal surfaces).- Strong anchor points which provide an easy
assembly and will ensure mechanical robustness
Electrical diagram
L: Ferrite core coil inductance.R: Copper resistance and connection.C: Tuning internal capacitor NPO.Z: External impedance.
153x45x27mm (33 uH - 500 uH)
Electrical specifications
Part Number L Inductance ± 5%
C Capacitor ±5%
Freq. (kHz) Ipp(A)Zimp@fo
(Ω)
KGEA-HB-B-0195J 195µH 8,2nF 125,0 2-4 <2,5
KGEA-HB-B-0500J 500µH 3,3nF 125,0 2-4 <3,5
KGEA-HB-C-0426J 426µH 3,3nF 134,2 2-4 <3,5
Electrical Parameters- Resonant frequency LF (L+C in serial). Custom LC value under demand- Capacitor type SMD NPO 400VDC/250VAC .- Fine adjust the tank resonant frequency L+C. Max tolerance Vs fres: ± 2kHz @ [-40ºC
to 85ºC].- Ipp max= 4 App- High stability in temperature (-40ºC up to +85ºC).- Reliability test: This part is according to AEC-Q200 Revision C.
Mechanical notes 1. All dimensions are in mm. 2. The external housing and cover is closed-sealed by ultrasonic welding.3. Plastic Material PBT-GF30%.
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Mechanical dimensions
Integrated Connector according to : TYCO 114-18063-012
KGEA-AF and KGEA-AFC Long Range Flexible Antenna LF for smart entry system.Features- Length from 300mm until 500mm- Higher impact absorption and mechanical reduction
preventive.- IP protection 68 (maximum degree against dust and
water).- High stability in temperature (-40ºC up to +85ºC).- High accuracy inductance and/or resonance frequency- Custom L-C value (F-Res: KGEA-AFC) under demand or
only L (KGEA-AF)- Significant saving in final PKE application: harness,
connectors and power switching devices reduced by 4 or 5.- Saving in power consumption
Characteristics:The main technical and economic advantages : - Longer antenna (length from 300mm until 500mm).- Completely flexible antenna.- Deformation in the middle of the antenna.- Higher impact absorption and mechanical reduction preventive.- IP protection 67.- High stability in temperature (-40ºC up to +85ºC).• Resonant frequency adjusting below +/- 2kHz.• Custom L-C value (F-Res: KGEA-AF) under demand or only L
(KGEA-AFC)• Wiring and connectors is reduced by 1/3, ¼ or 1/5 respectively.• OEM assembly time is reduced by 1/3, ¼ or 1/5 respectively.• Total energy consumption and battery current leaking , a very
important parameter specially in electric vehicles is reduced proportionally.
• A longer antenna need lower currents to generate equal or more intense magnetic fields thus reducing the again the energy needed and the cross section of the wire to the antennas.
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KGEA-AF and KGEA-AFC Long Range Flexible Antenna LF for smart entry system.
Electrical specifications
P/N L(mH) Cres (nF) Q SRF (MHz)
Operating Frequency @125Khz. (Only L)
KGEA-AF-B-0104J 0.104 ----- >100 >1
Operating Frequency @21.8Khz. (L+C in series)
KGEA-AFC-A-0161J 0.161 330nF >60 >1
Operating Frequency @125Khz. (L+C in series)
KGEA-AFC-B-0240J 0.240 6.8 >100 >1
The specification chart is a reference guide for the most common required values at working frequencies of 125 kHz, 20 kHz and 134.2 kHz. Any other inductance value at LF or tighter tolerances can be provided. Please contact our sales department for any inquiry.
- Only L:
- L+C in series:
Nomenclature description and Schematic Diagram
TELECOILS
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Inductance range graphs for single axis coils:
TCOILIntroduction
Tcoils or Telecoils are small coils used in hearing aid devices to sense magnetic fields instead sound signals. The Telecoil allows, for example, to sense directly the electromagnetic field of a telephone rather than an open acoustic microphone. Moreover, telecoils provide access to assistive listening systems, including neck-loop and room-based loop transmitter (installed in some theaters, conference rooms, etc.). Introduction of these Telecoils in the hearing aid devices also improve the binaural communication (stereo sound) allowing hearing of mobile phones, televisions, etc.
PREMO TCoils are very small special ferrite cores wound with ultra thin copper (up to 16 and 12 μm) and can be easily mounted in the PCB of the hearing aid devices using their SMD metallisations.
User of the device can switch from manual mode to automatic mode, creating a magnetic field enough to transmit the signal to the hearing aid.
PREMO TCoils series includes single axis coils such as TC0502, TP0602-TC, TC0902, TC1102 and Z-axis coil such.
Electrical values (for single axis coils) range from 40mH up to 460mH (measured at 1kHz).
Main characteristics- Very small size- Very stable electrical properties- High sensitivity- SMD mounting- Pb free contacts
Inductance Range
100µH 150µH 40mH 75mH 140mH 180mH 270mH 340mH 460mH
TC0502 20-16um (wire)16-12um
(wire)
TP0602-TC 20-16um (wire)
TC0902 20-16um (wire) 16-12um (wire)
TC1102 20-16um (wire) 16-12um (wire)
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TC0502SMD Telecoil 5.1x2.3x2.6 mm
This new design is coil with a very stable and high quality ferrite core and tiny size (5.1 x 2.3 x 2.4mm) and high sensitivity in low frequency range (20-40kHz). Those pieces are winding with thin copper wire up to12µm and its inductances range is 40-270mH. Besides, it has good frequency and temperature behaviour and can be served with “custom” electrics characteristics according requirements of hearing aid devices manufacturers.
Main characteristics- Small size- High sensitivity- SMD mounting
Typical application- Hearing aid devices
Dimensions and recommended pad-layout
Electrical specifications
P/N L(mH) @ 1kHz Tolerance Rdc (KΩ) SRF (kHz)Sensitivity
(mVpp/App/m) @1kHz
TC0502-04000J 40 ±5% 0,6 > 250 > 0,66
TC0502-14000J 140 ±5% 2,9 > 90 > 1,18
TC0502-17000J 170 ±5% 3,2 > 80 > 1,38
TC0502-27000J 270 ±5% 4,2 > 70 > 1,76
(40 mH - 270 mH)
This chart is a reference guide for the most common required values at working frequency of 1KHz. Any other inductance value at LF or tighter tolerances can be provided. Please contact our sales department for any inquiry. Sensitivity measured with Helmholtz coils H=6.34 App/m @1 kHz. Contact us for measurement specification. Metallization: Ag(Base)/Ni(inter)/Sn(Finish)
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Electrical specifications
TP0602-TC Micro SMD Hard Ferrite Telecoil
FeaturesThe TP0602-TC surface mountable ferrite wound inductor is a small telecoil solution for hearing aid devices. It uses high quality ferrite core and tiny size (6.6 x 2.3 x1.75 mm). Those pieces are winding with thin copper wire up to 12 μm and its inductance range is 40-170mH. Besides, it has good frequency and temperature behavior and can be served with “custom” electrics characteristics according requirements of hearing aid devices manufacturers.
Main Characteristics - Small size- High sensitivity- SMD mounting
Typical application- Hearing aid devices
Dimensions and recommended pad layout
P/N L(mH) @ 1kHz Tolerance Rdc (KΩ) SRF (kHz)Sensitivity
(mVpp/App/m) @1kHz
TP0602-TC-04000J 40 ±5% 1,1 > 220 0,80
This chart is a reference guide for the most common required values at working frequency of 1 kHz.Please contact our sales department for any inquiry. Contact us for measurement specification.Operating and test frequency: 1kHzSRF: Self-resonance frequency of the coil
6.6 x 2.3 x 1.75 mm (40mH - 170mH)
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TC0902SMD Telecoil 9x1.5x2 mm (260 mH - 340 mH)
This new design is coil with a very stable and high quality ferrite core and tiny size (9 x 1.5 x 2 mm) and high sensitivity in low frequency range (20-40kHz). Those pieces are winding with thin copper wire up to12µm and its inductances range is 260-340 mH. Besides, it has good frequency and temperature behaviour and can be served with “custom” electrics characteristics according requirements of hearing aid devices manufacturers.
Main characteristics- Small size- High sensitivity- SMD mounting
Typical application- Hearing aid devices
Dimensions and recommended pad-layout
Electrical specifications
P/N L(mH) @ 1kHz Tolerance Rdc (KΩ) SRF (kHz)Sensitivity
(mVpp/App/m) @1kHz
TC0902-26000J 260 ±5% 1,2 > 90 > 1,8
TC0902-34000J 340 ±5% 1,4 > 60 > 2,1
This chart is a reference guide for the most common required values at working frequency of 1KHz. Any other inductance value at LF or tighter tolerances can be provided. Please contact our sales department for any inquiry. Sensitivity measured with Helmholtz coils H=6.34 App/m @1 kHz. Contact us for measurement specification. Metallization: Ag(Base)/Ni(inter)/Sn(Finish)
Dimensions in mm
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TC1102SMD Telecoil 10.5x1.4x2 mm (350 mH - 460 mH)
This new design is coil with a very stable and high quality ferrite core and tiny size (10.5x1.4x2mm) and high sensitivity in low frequency range (20-40kHz). Those pieces are winding with thin copper wire up to12µm and its inductances range is 350-630 mH. Besides, it has good frequency and temperature behaviour and can be served with “custom” electrics characteristics according requirements of hearing aid devices manufacturers.
Main characteristics- Small size- High sensitivity- SMD mounting
Typical application- Hearing aid devices
Dimensions and recommended pad-layout
Electrical specifications
P/N L(mH) @ 1kHz ToleranceRdc MAX
(KΩ)SRF (kHz)
Sensitivity (mVpp/App/m) @1kHz
TC1102-35000J 350 ±5% 2,75 > 50 > 2,3
TC1102-46000J 460 ±5% 3,3 > 50 > 3,16
This chart is a reference guide for the most common required values at working frequency of 1KHz. Any other inductance value at LF or tighter tolerances can be provided. Please contact our sales department for any inquiry. Sensitivity measured with Helmholtz coils H=6.34 App/m @1 kHz. Contact us for measurement specification. Metallization: Ag(Base)/Ni(inter)/Sn(Finish)
Dimensions in mm
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General Specifications Tcoils SMD Soldering and Packaging
Soldering: recommended reflow profileReflow soldering, vapour-phase soldering. A maximum soldering temperature of 260°C during 10 s should not be exceeded for (see recommended soldering profile with maximum and minimum temperature-time)
Measuring equipments and conditions
Taping
SeriesReel dimensions Tape dimensions
Parts/ReelA B C D E W P P0 P1 D T
TC0502 330 50 13 22.4 16.4 16 8 4 2 2.8 0.3 2000
TP0602-TC 330 50 13 22.4 16.4 16 4 4 2 2.5 0.3 2000
TC0902 330 50 13 22.4 16.4 16 8 4 2 2.5 0.3 2000
TC1102 330 50 13 22.4 16.4 16 8 4 2 2.5 0.3 2000
1. Rated inductance LR Measured at freq. fL, with impedance analyzer WK3260 with 3MHz installed
2. Q factor Qmin Measured at freq. fL, with impedance analyzer WK3260 with 3MHz installed
3. Self-resonance freq. fmin Measured at freq. fL, with impedance analyzer WK3260 with 3MHz installed
4. DC resistance Rmax Measured at 20°C ambient temperature, measuring current < IR
5. SensitivityMeasured with Helmholtz coils 5 turns, Ø160mm + waveform generator Agilent 33120A + osci-lloscope Agilent 54622A. Contact PREMO
The reflow condition recommended above is according to the machine used by our company. Big differences will arise as a result of the type of machine, reflow conditions, method, etc. used.
Packing
Tape and reel packaging specifications
INDUCTORS/ CHOKES
Linear ChokesCommon Mode Chokes
High Power SMD Chokes
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PL SERIESLinear chokes
Features - Nominal maximum load current: from 0,6A to 7A. - Nominal inductance (L): from 0,05mH to 5,5mH. - Nominal inductance >80% at maximum load current.- Working voltage: 600Vdc maximum. - Working frequency: up to 20kHz. - High isolation voltage winding to ambient: 2kVac.- Ambient temperature: -40ºC to +50ºC. - Storage temperature: from -40ºC to +120ºC. - All materials UL94V-0 listed.- Vertical and horizontal formats available.
Electrical specifications
CodeIDC LOAD
(A)
maximum
L (mH)at 10kHz
±10%
Rdc (Ω) typical
Case
PL0R6-06HA 0,6 0,65 0,69 HA
PL0R1-15HA 1,5 0,11 0,15 HA
PLR01-40HA 4 0,015 0,017 HA
PL3R0-06HB 0,6 3 1,7 HB
PL1R0-10HB 1 1 0,55 HB
PL0R5-15HB 1,5 0,5 0,27 HB
PL0R1-30HB 3 0,1 0,07 HB
PLR02-70HB 7 0,02 0,013 HB
PL0R1-06VA 0,6 0,1 0,6 VA
PLR05-10VA 1 0,05 0,28 VA
PL0R5-06VC 0,6 0,5 0,75 VC
PL0R2-10VC 1 0,2 0,22 VC
PLR05-20VC 2 0,05 0,05 VC
PL005-04VD 0,45 5 2,6 VD
PL003-06VD 0,6 3 1,55 VD
PL0R5-15VD 1,5 0,5 0,28 VD
PL0R3-18VD 1,8 0,3 0,18 VD
PL0R1-30VD 3 0,1 0,07 VD
PLR05-45VD 4,5 0,05 0,03 VD
PLR02-70VD 7 0,02 0,012 VD
PL5R5-06VE 0,6 5,5 3,6 VE
PL0R8-16VE 1,6 0,8 0,47 VE
PL0R3-25VE 2,5 0,3 0,16 VE
PL0R1-40VE 4 0,13 0,053 VE
PLR05-63VE 6,3 0,05 0,023 VE
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PL SERIESLinear chokes
Dimensions (in millimeters)
CodeA
±0,2B
MAXC
±0,2D
MAXE
±0,2
PL-HA 10 17,8 15 18,2 12,4
PL-HB 15 28 25 28 17,5
PL-H SERIES
PL-V SERIES
CodeA
MAXB1
±0,2B2
±0,2C
MAXD
±0,2E
MAXØ PIN±0,1
L PIN+0/-0,5
PL-VA 10,5 5 6,25 8,2 8,75 10,7 0,6 3,5
PL-VC 13,5 7,5 7,5 10,5 12,5 15 0,6 3,5
PL-VD 24 10 10 13 20 23 0,8 3,5
PL-VE 32 15 15 18 12,5 32 0,8 5
Typical curves: Inductance vs Load Current
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COMMON MODE CHOKES SERIES
INTRODUCTION
ELECTROMAGNETIC COMPATIBILITY (EMC)
The electromagnetic compatibility is the ability of an electronic device to function satisfactorily in its electromagnetic environment (Inmunity or Susceptibility) without disturbing other equipments (Emission).An interference source generates two kind of electromagnetic interferences: conducted emission, electrical noise through the lines, or radiated emission, generation of electromagnetic fields.At high frequencies, characterized by the fact that the equipment dimensions are in the order of the magnitud of the wavelength associated to this frequency, the interference energy is mainly radiated.
EMC COMPONENTS
At lower frequency ranges, the EMC components are used to reduce conducted electromagnetic interferences, to assure the good devices working and to comply the legal regulations. These components can be installed in the interference source or in the disturbed device.In order to choose the suitable interference suppression component, the way in which the interference is propagated needs to be known:- The electrical noise which comes in one line wire and returns to the noise source through the other line wire is differential noise (symmetrical interference). This mode of interference occurs mainly at low frequencies (up to several hundred of kHz).Some types of capacitors (X capacitors) and single chokes are suitable for suppressing the differencial mode interferences.- Due to the mechanical configuration and parasitic capacitances, a current with the ground circuit can be created.These parasitic currents can flow through the power line cables and return through the ground cable. This kind of interference is the common mode noise (asymmetrical interference). As the effects of parasitic capacitance and inductance between the conductors increase with frequency, this interference occurs at high frequencies (startingapproximately from 1MHz).When the common mode interferences have to be reduced, the common mode chokes and Y capacitors are used.
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COMMON MODE CHOKES SERIES
COMMON MODE CHOKES
The closed core topology and the windings distribution make these components especially suitable for the common mode noise suppression.The continuos path of the toroids maximizes the magnetic coupling between windings thereby minimizing the leakage inductance.Also, two windings are connected in such a way that the magnetic flux induced by the operating current flowing in one winding is opposite to the flux induced by the current flowing through the another one, that is to say, both fluxes cancel each other. Therefore, the problem of core saturation is solved.This allows to use high permeability cores so that high inductance values are obtained.
Premo has a wide range of CMCs for their use in different applications. The chokes are based in a toroidal core and they are mounted in boxes or bases facilitating their direct assembly in the printed circuit board. The magnetic core material is either high permeability ferrite (PC, PM, SC) or nanocrystalline (HC). We can offer different formats and sizes in order to cover all the necessities in the electromagnetic compatibility field.
SERIES
SERIES Current range Inductance rangeAttenuation
frequency rangeMain applications Features
PC / PMFrom 0,3A to
10AFrom 0,5mH to
68mHFrom 50kHz to
1MHz- Switched Mode Power Supplies (SMPS)
- Very high inductance values- Wide range
SCFrom 0,4A to
2,5AFrom 5µH to
4,7mHFrom 100kHz to
1GHz- DC/DC applications
- Very small size- SMD format
HCFrom 2A to
30AFrom 6mH to
28mHFrom 10kHz to
100MHz
- Switched Mode Power Supplies (SMPS)-Uninterruptable Power Supplies (UPS) - Inverters
- Very high current values- Wide impedance vs frequency response. Highfiltering at all frequencies.- High stability vs temperature.
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HC SERIESCommon mode chokes with Nanocrystalline cores
Features- Nominal current in each winding (I): from 2A to 30A.- Nominal inductance (L): from 6mH to 28mH.- Rated voltage: 250Vac.- Test voltage: 1.5kVac, winding to winding.- Creepage distance: 3mm, winding to winding.- Ambient temperature: from –40ºC to +50ºC.- Storage temperature: from –40ºC to +120ºC.- Plastic case: UL 94V-0 listed.- According to UL 1283.
Electrical specifications
Code IAC (A)L (mH)
at 10kHz+50% / -30%
L (mH)at 100kHzminimum
IZI (Ω)at 100kHz
typical
Rdc (mΩ)typical
ØPIN (mm) ±0,1
HC140-02V1 2 2 x 14 2 x 1,5 2000 110 0,5
HC6R5-04V1 4 2 x 6,5 2 x 0,65 1600 31,5 0,75
HC280-04V1 4.5 2 x 28 2 x 4,5 4500 42 0,7
HC190-06V2 6 2 x 19 2 x 2,7 3500 37 0,8
HC130-08V2 8 2 x 13 2 x 1,8 2000 20 0,95
HC9R0-10V2 10 2 x 9 2 x 1,4 1500 18 0,9
HC110-13V2 13 2 x 11 2 x 1,3 1600 11 1,25
HC6R0-15V3 15 2 x 6 2 x 2,0 1000 10 1,2
HC6R0-30V3 30 2 x 6 2 x 0,5 1000 3 2,2
HC9R0-10H1 10 2 x 9 2 x 1,4 1500 18 0,9
HC110-13H1 13 2 x 11 2 x 1,3 1600 10 1,25
HC1R6-20H1 20 2 x 1,6 2 x 0,2 250 3 1,6
HC130-16H2 16 2 x 13 2 x 1,2 1800 6,6 1,6
HC1R2-25H2 25 2 x 1,2 2 x 0,4 370 3 1,8
HC4R9-20H3 20 2 x 4.9 2 x 1,4 1600 7 1,7
HC3R6-25H3 25 2 x 3,6 2 x 1,1 1000 5,5 1,8
HC2R6-32H3 32 2 x 2,6 2 x 0,3 400 2,5 2,2
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HC SERIESCommon mode chokes with Nanocrystalline cores
Dimensions (in mm)
CodeA
MAXB
MAXC
MAXD
±0,2E
±0,2L
±1,0
HC-V1 28,5 18 30 7,62 15,24 4
HC-V2 37,0 22 37 15,24 25,4 4
HC-V3 55,0 30 56 20,32 35,56 5
CodeA
MAXB
MAXC
±0,2D
±0,2E
±0,2F
±0,2G
±0,2H
±0,2I
±0,2J
±0,2L
±1,0
HC-H1 37,5 23 13,5 23 - - - - - - 4
HC-H2 42,5 26 - - 5 5 5 5 7 15 5
HC-H3 55,5 31 - - 12,5 10 7,5 7,5 4,5 20 5
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HC SERIESCommon mode chokes with Nanocrystalline cores
Curves: Impedance vs. Frequency
Note:
Impedance measurements have been obtained with both windings in parallel and at ambient temperature.
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HC SERIESCommon mode chokes with Nanocrystalline cores
Note:
Impedance measurements have been obtained with both windings in parallel and at ambient temperature.
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HC SERIESCommon mode chokes with Nanocrystalline cores
Note:
Impedance measurements have been obtained with both windings in parallel and at ambient temperature.
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PC SERIESCommon mode chokes with Ferrite cores
Features- Nominal current in each winding (I): from 0,3A to 10A.- Nominal inductance (L): from 1,8mH to 68mH.- Rated voltage: 250Vac.- Test voltage: 1,5kVac, winding to winding.- Creepage distance: 3mm, winding to winding.- Ambient temperature: from –40ºC to +50ºC.- Storage temperature: from –40ºC to +120ºC.- Plastic case: UL 94V-0 listed.- Potting resin: UL94V-0 listed.- According to UL 1283.
Electrical specifications
Code L(mH) +50% -30%RDC (mΩ)
MAX. @20ºCI (A) 50 Hz
Impedance(Ω) I Z I@ 100kHz
Code
2 x 47 2 x 1.800 0.3 20 PC 470-3V12 x 39 2 x 1.300 0.4 150 PC 390-4V1
2 x 27 2 x 700 0.6 70 PC 270-6V12 x 15 2 x 300 1.0 190000 PC 150-10V12 x 5.6 2 x 160 1.2 150000 PC 5R6-12V1
PC 470-5H2 2 x 47 2 x 1.050 0.5 350 PC 470-5V2PC 390-5H2 2 x 39 2 x 760 0.5 75 PC 390-5V2PC 270-8H2 2 x 27 2 x 550 0.8 160 PC 270-8V2PC 150-9H2 2 x 15 2 x 350 0.9 10500 PC 150-9V2PC 5R6-12H2 2 x 5.6 2 x 150 1.2 4000 PC 5R6-12V2PC 3R3-25H2 2 x 3.3 2 x 50 2.5 2800 PC 3R3-25V2PC 470-6H3 2 x 47 2 x 1.250 0.6 900 PC 470-6V3
PC 390-7H3 2 x 39 2 x 975 0.7 280 PC 390-7V3
PC 270-10H3 2 x 27 2 x 450 1.0 600 PC 270-10V3
PC 150-12H3 2 x 15 2 x 300 1.2 110 PC 150-12V3PC 5R6-18H3 2 x 5.6 2 x 125 1.8 5000 PC 5R6-18V3PC 3R3-28H3 2 x 3.3 2 x 60 2.8 2800 PC 3R3-28V3PC 470-6H4 2 x 47 2 x 1.350 0.6 5000 PC 470-6V4
PC 390-8H4 2 x 39 2 x 950 0.8 2900 PC 390-8V4PC 270-10H4 2 x 27 2 x 575 1.0 1300 PC 270-10V4
PC 220-14H4 2 x 22 2 x 450 1.4 1100 PC 220-14V4
PC 150-14H4 2 x 15 2 x 300 1.4 180000 PC 150-14V4
PC 5R6-28H4 2 x 5.6 2 x 90 2.8 120000 PC 5R6-28V4
PC 3R3-40H4 2 x 3.3 2 x 50 4.0 80000 PC 3R3-40V4
PC 470-10H5 2 x 47 2 x 880 1.0PC 100-20H5 2 x 10 2 x 230 2.0
PC 3R9-40H5 2 x 3.9 2 x 58 4.0PC 1R8-60H5 2 x 1.8 2 x 23 6.0
PC 680-10H6 2 x 68 2 x 1.300 1.0 PC 680-10V6
PC 180-20H6 2 x 18 2 x 350 2.0 PC 180-20V6
PC 6R8-40H6 2 x 6.8 2 x 87 4.0 PC 6R8-40V6PC 3R9-60H6 2 x 3.9 2 x 41 6.0 PC 3R9-60V6PC 2R7-80H6 2 x 2.7 2 x 22 8.0 PC 2R7-80V6PC 1R8-100H6 2 x 1.8 2 x 14 10.0 PC 1R8-100V6
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PC SERIESCommon mode chokes with Ferrite cores
Dimensions (in mm)
CodeA
MAXB
±0,2C
MAXD
±0,2E
MAX
PC-V1 20,3 10 13,2 5 18,2
PC-V2 26 12,5 16,1 10 23,3
PC-V3 30,5 15 18,6 12,5 28
PC-V4 33,2 15 18,5 12,5 32
PC-V6 40 17,5 21,5 12,5 40,4
CodeA
±0,2B
MAXC
±0,2D
MAXE
MAX
PC-H2 20 23 12,5 22,7 15
PC-H3 25 28 15 28 17,5
PC-H4 30 33 20 32 19,5
PC-H5 30 33,5 20 32,6 25
PC-H6 40 44 15 42,4 25
PC-V SERIES
PC-H SERIES
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PC SERIESCommon mode chokes with Ferrite cores
Curves: Impedance vs. Frequency
Note:
Impedance measurements have been obtained with both windings in parallel and at ambient temperature.
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PC SERIESCommon mode chokes with Ferrite cores
Curves: Impedance vs. Frequency
Note:
Impedance measurements have been obtained with both windings in parallel and at ambient temperature.
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PM SERIESCommon mode chokes with Ferrite cores
Features- Nominal current in each winding (I): from 0,4A to 6,3A.- Nominal inductance (L): from 0,5mH to 40mH. - Rated voltage: 440Vac. - Test voltage: 1,8kVac winding to winding. - Ambient temperature: -40ºC to +50ºC. - Storage temperature: from -40ºC to +120ºC. - Plastic case: UL 94V-0. - Potting resin: UL94V-0. - According to UL1283.
Electrical specifications
Code IAC (A)L (mH)
at 10kHz+50% / -30%
IZI (Ω)at 100kHz
typical
Rdc (mΩ)maximum
Case
PM400-04HA 0,4 2x40 70000 2x1200 HAPM6R8-12HA 1,2 2x6.8 5000 2x200 HAPM3R3-15HA 1,5 2x3.3 2000 2x110 HAPM0R7-40HA 4 2x0.7 500 2x16 HAPM400-06HB 0,6 2x40 400000 2x1000 HB PM200-10HB 1 2x20 30000 2x360 HB PM6R0-20HB 2 2x6.0 5000 2x100 HB PM1R5-40HB 4 2x1.5 1000 2x28 HB PM0R6-63HB 6,3 2x0.6 300 2x13 HB PM4R0-05VA 0,5 2x4.0 3000 2x500 VAPM2R0-09VA 0,9 2x2.0 1600 2x240 VAPM0R5-20VA 2 2x0.5 400 2x50 VAPM4R0-05VB 0,5 2x4.0 3000 2x500 VBPM2R0-09VB 0,9 2x2.0 1600 2x240 VBPM0R5-20VB 2 2x0.5 400 2x50 VBPM110-06VC 0,6 2x11 10000 2x600 VCPM4R0-10VC 1 2x4.0 4000 2x250 VCPM1R0-20VC 2 2x1.0 900 2x65 VCPM200-10VD 1 2x20 20000 2x500 VDPM6R0-20VD 2 2x6.0 5000 2x150 VDPM1R5-40VD 4 2x1.5 1200 2x36 VDPM0R6-63VD 6,3 2x0.6 500 2x15 VDPM500-06VE 0,6 2x50 200000 2x1200 VE PM330-10VE 1 2x33 70000 2x700 VE PM270-14VE 1,4 2x27 30000 2x470 VE PM6R8-20VE 2 2x6.8 5000 2x150 VEPM3R3-40VE 4 2x3.3 3000 2x58 VE PM2R0-60VE 6 2x2.0 1600 2x24 VE
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PM SERIESCommon mode chokes with Ferrite cores
Dimensions (in mm)
CodeA
±0,2B
MAXC
±0,2D
MAXE
±0,2
PM-HA 10 17,8 15 18,2 12,4
PM-HB 15 28 25 28 28
PM-H SERIES
PM-V SERIES
PM-VB SERIES
CodeA
MAXB1
±0,2B2
±0,2C
MAXD
±0,2E
MAXØ PIN±0,1
L PIN+0/-0,5
PM-VA 10,5 5 6,25 8,2 8,75 10,7 0,6 3,5
PM-VC 13,5 7,5 7,5 10,5 12,5 15 0,6 3,5
PM-VD 24 10 10 13 20 23 0,8 3,5
PM-VE 32 15 15 18 12,5 32 0,8 5
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PM SERIESCommon mode chokes with Ferrite cores
Curves: Impedance vs. Frequency
Note:
Impedance measurements have been obtained with both windings in parallel and at ambient temperature.
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PM SERIESCommon mode chokes with Ferrite cores
Curves: Impedance vs. Frequency
Note:
Impedance measurements have been obtained with both windings in parallel and at ambient temperature.
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PM SERIESCommon mode chokes with Ferrite cores
Curves: Impedance vs. Frequency
Note:
Impedance measurements have been obtained with both windings in parallel and at ambient temperature.
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Electrical specifications
Dimensions Electrical Diagram
Part NumberL (1)
(µH)±10%I rms (2)
(Amps)I Sat (3)
(Amps)DCR
(mΩ) TYP.S.R.F.
(MHz) MIN.
PB1212-0R5 0,5 20 35 1,2 2
PB1212-0R8 0,8 20 30 1,2 2
PB1212-1R1 1,1 20 24,5 1,2 2
PB1212-1R5 1,5 20 17,5 1,2 2
PB1212-2R4 2,4 16 22 3,2 2
PB1212-3R4 3,4 16 14 3,2 2
PB1212-4R7 4,7 16 10 3,2 2
PB1212-6R3 6,3 7,5 12,5 12,4 2
PB1212-9R5 9,5 7,5 10 12,4 2
PB1212-14R 13,7 7,5 7 12,4 2
PB1212-19R 18,8 7,5 5 12,4 2
Features- Low cost energy storage choke with high current for telecom,PLC and consumer market- Nominal currents: up to 20 Amps- Nominal inductance: from 0,5µH to 18.8µH- Low profile with SMD format- Low losses due rectangular wire is used- Three soldering points to improve vibration test- Rohs Compliance
Note 1: Measured at 100kHz,1Vac @ 25 ºC ambient.Note 2: Current with a 55 ºC temperature rise from 25 ºC ambient(natural cooling).Note 3: DC current with the inductance drops 10% (typ) from the value without DC current
Notes:- Coplanarity < 150µm
Top ViewRecommended PCB Layout
PB1212 SERIESPower Cube
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PB2016 SERIESPower Cube
Electrical specifications
Dimensions Electrical Diagram
Part NumberL (µH)±10%
I dc (1)
(Amps)I Sat (2)
(Amps)DCR
(mΩ) TYP.S.R.F.
(MHz) MIN.
PB2016-1R7 1,7 25 75 2,0 2
PB2016-2R2 2,2 25 60 2,0 2
PB2016-3R3 3,3 25 40 2,0 2
PB2016-4R7 4,7 16 35 4,5 2
PB2016-6R8 6,8 16 24 4,5 2
PB2016-9R2 9,2 16 16 4,5 2
PB2016-15R 15 16 10 4,5 2
PB2016-22R 22 16 7 4,5 2
PB2016-33R 33 16 4 4,5 2
Features- High current inductor for automotive applications- Nominal currents: up to 25 Amps- Nominal inductance: from 1,5µH to 33µH- Low profile with SMD format- Low losses due rectangular wire is used- Four soldering points to improve vibration test- AECQ-200 qualified- Rohs Compliance
Note 1: Current with a 45 ºC temperature rise from 25 ºC ambient (natural cooling).Note 2: Max DC current without the inductance drops from the value without DC current
Notes:- Coplanarity < 150µm- Grid tolerance: ±0.2- Terminals 1 and 2 not connected to coil. Placed to improve vibration requirements.
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UC SERIESPower Micro Cubes Chokes
Electrical specifications
CodeL0 (3) INDUCTANCE
±20% (µH) at 0.25V/100kHz/0A
DCR TYPat 25°C
(mΩ)
DCR MAXat 25°C
(mΩ)
HEATING CURRENT Idc (4)
(A)
SAT. CURRENT Isat (5)
(A)
UC1380-6R5 6,50 7,3 8,4 12,0 13,0
UC1380-5R2 5,20 6,6 7,6 12,6 14,5
UC1380-4R0 4,05 4,4 5,1 15,4 16,4
UC1380-3R0 3,04 3,1 3,6 17,3 19,0
UC1380-2R2 2,18 2,3 2,6 20,1 22,4
UC1380-1R5 1,46 1,7 2,0 23,4 27,4
UC1380-0R9 0,97 1,2 1,4 25,2 35,2
UC1380-0R5 0,54 0,9 1,0 27,9 49,3
Features- Shielded construction- Height : 8.0mm Max, Pick&Place compatible- Footprint : SMD 15.0 x 13.2mm Max- RMS current rating : up to 30A- Inductance range : 0.45µH to 6.50µH- Frequency range up to 5MHz- Low core losses- H class component for operation up to 180°C- Very stable performances versus temperature- AEC-Q200 qualified for the automotive sector- No thermal aging effect- Weight : approx. 7.5g
Application- Low-profile high-current DC/DC converters- DC/DC converters for FPGA- High current POL converters- DC/DC converters in distributed power systems
(1) All test data are referenced to 25°C ambient temperature(2) Continuous operating temperature range must be within -40°C/+150°C (ambient + self heating) under worst case conditions ; exposure to 180°C peak is allowed according to IEC85 H thermal index for all raw materials used Circuit design, component placement, PCB tracks size and thickness, airflow and other cooling provisions all affect the part temperature rise It is suggested that the component be tested at the system level to verify its temperature after 30 minutes in the end application(3) +/-5% MAX on -40°C/+150°C temperature range(4) DC current that will cause an approximate ΔT of +50°C(5) DC current that will cause L0 to drop approximately 30%
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UC SERIESPower Micro Cubes Chokes
Dimensions (mm)
SolderingReflow or vapor-phase soldering processes are compatible to mount components from the UC seriesA maximum soldering temperature of 260°C during 10s shall not be exceededThe reflow condition recommended beside is according to the equipment used at PREMODifferences could appear as a result of the type of machine, reflow conditions, method…
Recommended pad layout Recommendedpadlayout
DimensionsinmmTolerance±0.2
6.5
14.8
4.0
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UC SERIESPower Micro Cubes Chokes
Typical performances versus DC current
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UC SERIESPower Micro Cubes Chokes
Packaging
Standard Tape&Reel
SeriesReel dimensions (mm) Tape dimensions (mm) Parts/
ReelA B C D E W P P0 P1 D T
UC 330 100 13 37.5 32.5 32 20 4 2 7.4 0.4 350
POWER TRANSFORMERS
PCB Planar TransformersHigh Power Overmolded Planar Transformers
Power Components for HEV Onboard Automotive SMPSPulse Transformers
105
PC
B P
lana
r Tr
ansf
orm
ers
Introducing PLANAR TRANSFORMERSINTRODUCTIONThe continuous need of higher currents and the availability of better switching transistors that offer very low RDSon and higher upper operating frequencies has boosted the development of optimized transformers and chokes that match today’s power designers’ needs.Higher power, lower output voltages, lack of available space and high efficiency are common requirements in switched power systems.PREMO planar transformers have been designed to fulfill those tough requirements.
LARGEST RANGEThis catalogue presents the largest range of standard solutions in planar transformers available in the market today. There are 7 types of cores that combine with different types of plastic isolating housings. They are also combined with different assembling options like SMD, PTH or direct leads.Finally these constructive solutions are combined with the most used topologies per power such as Forward (single or dual) Flyback, Half-bridge, etc…Requirements from designers for power-distributed systems have been carefully studied so that there is a comprehensive offer of transformers covering a wide range of power from 5W to 2600 W.
APPLICATIONS- Automotive.- Telecom 48V distributed power systems.- Industrial 24 V Power Systems.- AC/DC Power supplies (Vin range 80 to 280VAC with safety isolation).- Electric Motor Drives.- Rectifiers.- Photovoltaic and welding Inverters.- High current DC/DC converters. (1.2V to 12V).
ADVANTAGESThrough the evolution of the technology during 20 years PREMO has improved several aspects of the already well known advantages of planar technology when compared to conventional ones that we can summarize as follows:- Low profile.- Low weight.- Reduced dimensions.- Very low leakage inductance.- Low interwinding capacitances.- Low losses.- Excellent repeatability.- Improved thermal characteristics.- High reliability.- Cost effectiveness.- Higher power handling.- Easier to cool.- Better resistance to impact and vibration.- Automatic assembly.- Reduced noise.
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Introducing PLANAR TRANSFORMERS
DESIGNPREMO Planar Transformers have been developed using our own R&D designing software and finite element electromagnetic analysis programs so that the parameters entered for every design are the requirements of the converter or power supply unit in which it will be assembled.An exact evaluation of losses in the core and copper, stray parameters such as leakage inductance and parasitic capacitance or AC resistance and thermal performance are obtained. Once the design is validated by the data obtained with the analysis software, our R&D proceeds to build prototypes with a quick prototyping system.
PROTOTYPINGPREMO R&D Labs are equipped with rapid PCB printing machinery so that samples can be build in record time. Copper foil cutting tools, plastic enclosures, pins, PCB’s and cores for our available formats are ready for quick prototyping.
MANUFACTURINGPREMO worldwide manufacturing locations own all the required equipment for automatic soldering of the pins to the PCB. Wave- or relow-soldering ovens are used according to the terminations technology (PTH / SMD). The core assembling is fully mastered in a qualified strong gluing operation. The capability is already hundreds of thousands pieces per year and could be easily increased. Components made according to this process have been fully qualified to guarantee their best performances versus time.
RELIABILITY AND TESTINGPrototypes and production batches are tested and qualified by a unique test system that reproduces the worst possible working conditions for the transformer. This is achieved by exciting the primary with a symmetric square wave (from 10KHz up to 1MHz adjustable) with the actual working input voltage (from 10V up to 400V adjustable) and the secondary connected to an electronic loads that makes the transformer operate at the maximum needed power (from 0.5 to some Amps adjustable) with its actual cooling condition (natural connection, heatsink, forced air, etc…).Infrared thermo graphic pictures are obtained so that hot spots are detected and assured to be below the safety limits. This way, PREMO planar transformers offer enhanced reliability and the certainty that interconnection vias are working properly without weak contacts or cold solderings.Reliability test reports with actual waveforms, and losses information, conversion ratio and efficiency are issued with this unique automatic data acquisition and test system.
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Introducing PLANAR TRANSFORMERS
CONSTRUCTION TECHNOLOGYPREMO Planar Transformers are manufactured with a combination of state of the art and unique production techniques. Our planar transformers combine just copper forms with double sided 0.035 to 0.210mm copper plated FR4 ultra-thin substrates, Kapton pre-cut isolation forms and multilayer PCB’s up to 12 layers.The AC/DC models need extra clearance and creepage distances that are accomplished by the use of a vacuum air-bubbles-free polyurethane resin potting that assures correct horizontal insulation between windings.All designs are flame-retardant and self-extinguishable as they are produced with UL94-V0 approved materials.Thermal class can be modified (increased) on demand, as there are three available insulation systems.All PREMO Planar Transformers are RoHS compliant. Material Declaration Forms available.
KEY TO THIS CATALOGThe present catalogue is splitted in two major applications DC/DC conversion and AC/DC conversion. The main difference is the construction technology to achieve the necessary insulation. AC/DC products are potted and encapsulated.There are common features in the data sheets such as schematics for the proposed topologies that, in order to avoid repetitions are presented here.The main topologies presented both for DC/DC and AC/DC are Flyback, Forward, Dual-Forward, Push-Pull, Half-Bridge, Full-Bridge. According to industry use, Power Supplies over 100W have a Power Factor Correction module therefore Vin at the transformer for sizes smaller than PT32-ACDC is just the rectified line voltage but for larger sizes Vin is 350-400V as the typical Vout at the PFC.
CUSTOM DESIGNSMain copper frames, ferrite cores, pins, PCBs and plastic housings are already available for our customers’ tailor made designs. Should you need a planar transformer, which is not in our standard catalogue, please submit following data to PREMO:
- Vin min.- Vin max Vout & Iout (per secondary).- Switching Frequency.- Duty Cycle.- Topology.- Isolation voltage.- Efficiency (If not specified efficiency is maximized).- Max available room. (If not specified size is minimized).- Ambient Temperature.- Clearance & Creepage.- Cooling Method.- Assembly method.
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CodeInput
Voltage (V)
Output Voltage
(V)
Output Current
(A)
Power (W)
Frequency (kHz)
Duty Cycle
TopologyL (µH) ±25%
L Leak (µH)Turns Ratio
(Pri:Sec)
Losses (W)
P015FW1CS1 36-72 1,5 13 20 400 0,46 Forward 263,6 0,7 10:1 0,4
P015FW1CP1 36-72 1,5 13 20 400 0,46 Forward 263,6 0,7 10:1 0,4
P015FW1CS3 36-72 5 4 20 400 0,43 Forward 213,5 0,7 3:1 0,4
P015FW1CP3 36-72 5 4 20 400 0,43 Forward 213,5 0,7 3:1 0,4
P018FW1CS1 36-72 3.3 15 50 400 0.44 Forward 202.5 0.37 9:02 1
P018FW1CP1 36-72 3.3 15 50 400 0.44 Forward 202.5 0.37 9:02 1
P018FW1CS2 36-72 5 10 50 400 0.43 Forward 202.5 0.37 3:01 1
P018FW1CP2 36-72 5 10 50 400 0.43 Forward 202.5 0.37 3:01 1
P018FW1CS3 36-72 12 4 50 400 0.42 Forward 122.5 0.37 7:06 1
P018FW1CP3 36-72 12 4 50 400 0.42 Forward 122.5 0.37 7:06 1
P032FB1CP1 36-72 12 50 600 200 0.45 Full-Bridge 150 0.3 5:02 6
P215FK3DS3 100-350 12 1.25 15 400 0.46 Flyback 144 0.3 10:03 0.46
P215FK3DP3 100-350 12 1.25 15 400 0.46 Flyback 144 0.3 10:03 0.46
P218WD3DS2 100-350 5 8 40 400 0.42 Forward dual 1.55 0.5 8:01 0.8
P218WD3DP2 100-350 5 8 40 400 0.42 Forward dual 1.55 0.5 8:01 0.8
P222WD3DS1 100-350 5 14 70 150 0.48 Forward dual 3.13 0.5 9:01 1.4
P222WD3DP1 100-350 5 14 70 150 0.48 Forward dual 3.13 0.5 9:01 1.4
P232PP4DP1 350-420 24 12.5 300 150 0.47 Push - Pull 9.43 0.9 13:01 5
P020FW1CS1 36-72 3.3 30 100 300 0.45 Forward 65 0.25 10:04 3.6
Introducing PLANAR TRANSFORMERS
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SCHEMATICS TOPOLOGY FOR DC-DC & AC-DC PLANAR TRANSFORMERS
Topology: Forward Topology: Forward
Topology: Forward Dual Topology: Forward Dual
Topology: Flyback Topology: Flyback
Topology: Pushpull Topology: Pushpull
Topology: Fullbridge Topology: Fullbridge
Topology: Halfbridge Topology: Halfbridge
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PCB PLANAR TRANSFORMERSRapid Guide
P215Dimensions 26x18x8 mm
Power 15 W
Output Voltage 1.5 / 3.3 / 12 Vdc
Switching freq 400 kHz
P222Dimensions 37.5x22x12.5 mm
Power 70 W
Output Voltage 5 / 12 / 24 Vdc
Switching freq 150 kHz
P218Dimensions 30x18x9.2 mm
Power 40 W
Output Voltage 3.3 / 5 / 12 Vdc
Switching freq 400 kHz
P232Dimensions 48x32x12.7 mm
Power 300 W
Output Voltage 12 / 24 /48
Switching freq 150 kHz
P015Dimensions 24x18x8 mm
Power 20 W
Output Voltage 1.5 / 3.3 / 5 Vdc
Switching freq 400 kHz
P022Dimensions 37.5x22x12.5 mm
Power 100 W
Output Voltage 3.3 / 5 / 12 Vdc
Switching freq 200 kHz
P018Dimensions 30x18x9.2 mm
Power 50 W
Output Voltage 3.3 / 5 / 12 Vdc
Switching freq 400 kHz
P032Dimensions 48.5x32x12.7 mm
Power 600 W
Output Voltage 5 / 12 /24
Switching freq 200 kHz
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NS SERIESThird generation of planar transformers
Features - Designed for high-current telecom power supply applications. (LM5041 – UCC3580).- Designed with the highest efficiencies in the market.- Designed with the lowest profiles in the market. - Three new shapes added to our standard family. - Designed to offer high power densities along with great reliability and repeatability. - Designed to provide different output ratings to suit a variety of applications. (LM5030). - Ideal for use in open loop intermediate bus converter (IBC) and closed loop voltage mode converters (LM5033). - Designed to meet UL60950/EN60950. - Winding design under our own unique raw material design system.
Electrical specifications
Part Number
Input Voltage Vdc (V)
OutputVoltage
(V)
OutputCurrent
(A)
Power (W)
Frequency (kHz)
Duty cycle
Topology Inductance
Typ Leakage
Inductance (µH)
Turns Ratio
(Pri:Sec)
Max Total
losses (W)
Recommended PWM
Controller
P018PP1CS1 36-72 3,3 30 100 400 0,45 Push Pull 218µH 0,3 9:1 2 LM5030 - NS
P018PP1CS2 36-72 5 7 35 400 0,43 Push Pull 97,2µH 0,3 6:1 0,75 LM5030 - NS
P018PP1CS3 36-72 12 5 60 400 0,45 Push Pull 218µH 0,3 3:1 1,2 LM5030 - NS
P020FW1CS1 36-72 3,3 30 100 300 0,45 Forward 65µH 0,25 6:1 2 UCC3580 - TI
P020PP1CS1 36-72 12 15 180 300 0,45 Push Pull 187,0µH 0,25 10:4 3,6 MAX5069-Max
P020HB1CS1 40-60 10 20 200 300 0,45 Half Bridge 46,8µH 0,1 5:4 4 LM5033 - NS
P020PP1CS2 36-72 2,5 60 150 300 0,45 Push Pull 1,25mH 0,3 8:1 3 LM5041 - NS
P026PP1CS1 36-72 28,5 11 310 150-220 0,48 Push Pull 155,0uH 0,3 1:1 2 LM5035 - NS
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NS SERIESThird generation of planar transformers
Dimensions
Schematics
PØ26 NS Series
PØ20 NS Series
PØ218 NS Series
Recommended PCB layout
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HIGH POWER PLANAR INDUCTIVES
DescriptionPREMO high power fully overmolded planar transformers and chokes series is an innovative solution initially developed for the automotive market that applies specific sector standards like AEC-Q200. It has been formerly conceived for ISG systems. However, it is a versatile product that can be used in DC/DC converters and traction inverters in electrical and hybrid vehicles. It has been developed under a unique vacuum potting technique that allows a high isolation level (5kV) and a full encapsulation of the winding and terminations for the best resistance to harsh environments.
Among the HPT/GHPT-001-002 main features stands out its high power management (1.7kW to 3.2kW) in a 2.8cm/3.4cm height profile and less than 75cm2 room area. The product is presented within a base aluminum heat sink. Its shape allows an isotropic heat transfer that increases component’s performance. Laminated inner design allows a high efficiency: Rated losses are below 1% of total output power and effects such as skin and proximity have been considerably reduced.PREMO has developed a mechanical fastening system on it in order to improve final assembly structure in front of mechanical stress tests according the most stringent standards. Selected raw materials constitute a high temperature resistant system up to 180°C.GHPT-003 is a bigger size mostly proposed in fast-charging stations for electrical cars. HPTR is the latest development with a reduced size and improved connections for high currents (150-300Amps).
Today the industrial sector also benefits of this reliable technology for high power needs where the insulation from the main and the cooling efficient are a must. An open-loop cooling water systems with a cold-plate at a lower temperature (45-60°C MAX) than the closed-loop one embedded in a vehicle (70-90°C MAX) enables the transmission of a higher power in the same sizes (5-10kW). Possible examples of utilization are welding systems, high power supplies for plasma generators and cutting, punching, laser machines...
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HPT SERIES
Features - High power planar transformers for HV systems- According AEC-Q200.- High efficiency (99%). - Skin and proximity effects reduced.- Storage temperature from -50ºC to 175ºC- Operating temperature from -40ºC to 90ºC with heat sink dissipation (effective temperature up to 125ºC)- Power module-like assembly.- Threaded output terminals. - Very low profile.- Improved room area less than 100 sq cm.
Electrical specifications
Dimensions
Electrical Schematics
Part Number
Input Voltage Vdc (V)
OutputVoltage
(V)
OutputCurrent
(A)
Power (W)
Frequency (kHz)
Duty cycle
TopologyInductance
(±25%)
Leakage Inductance
(µH)
Turns Ratio
(Pri:Sec)
Max Total
losses (W)
HPT-001 70-130 14 120 1700 40 0,42 Full Bridge 960µH 1,5 4:1 14
HPT-002 260-420 14 160 2200 100-150 0,45 ZVT Full Bridge 2,94mH 1,5 14:1 18
HPT-003 350-420 420 7,5 3150 100-150 0,46 ZVT Full Bridge 3,84mH 5 16:20 18
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GHPT SERIESPower Planar Transformer for HV Systems
Features - High Power & Low profile transformers- Easy-assembly system for cold plates- Power rating up to 16kW- Frequency range : 70-120kHz- H class component for operation up to 180°C- Operating temperature from -40ºC to 125ºC- Vacuum potted solution for high isolation- Solution with heatsink available- Threaded output terminals- UL94V-0 material- RoHS compliant
Electrical specifications
Application - Industrial high power SMPS- Rapid Chargers for EV
Part Number
Input Voltage Vdc (V)
OutputVoltage
(V)
OutputCurrent
(A)
Power (W)
Frequency (kHz)
Duty cycle
Topology(*)
Inductance(mH)
Leakage Inductance
(µH)
Turns Ratio
(Pri:Sec)
Max Total
losses (W)
GHPT-001 360-440 34 200 6.8 100 0.47ZVS
Full Bridge0.8 1 8:2 18
GHPT-002 800-900 520 23 12 120 0.42ZVS
Full Bridge0.6 1 15:10 22
GHPT-003 230-340 500 32 16 70 0.4 Full Bridge 0.4 1 4:11 35
(*) ZVS Full Bridge topology with 4-diodes rectification
Notes
(1) All test data are referenced to 25°C ambient temperature
(2) Continuous operating temperature range must be within -40°C/+125°C (ambient + self heating) under worst case conditions;
exposure to 180°C peak is allowed. Thermal index H for all raw materials used
(3) Performances are subjected to change according to cooling capability of the cold plate where the component is fixed. It is
suggested to test the component at system level to verify its temperature rise after 30 minutes in the end application.
(4) Inductance values are measured at 10kHz/1V
(5) Hi-pot test between winding and between primary winding to core is above 5kV/50Hz/2sec
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Dimensions
Electrical Diagram
GHPT SERIESPower Planar Transformer for HV Systems
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HPTR SERIESLow Size Planar Transformer for HV SystemsFeatures - High power planar XFMR for HEV/EV applications- According AEC-Q200- Easy-assembly system for cold plates- Improved size with round center leg core- Vacuum potted solution- Power rating : 2-3.3 kW- Frequency range : 90-110kHz- H class component for operation up to 180°C- Operating temperature from -40ºC to 125ºC- Single blade and blade-for-screw output terminals- UL94V-0 material- RoHS compliant
Electrical specifications
Application - Automotive DC/DC converters and battery chargers for HEV/EV systems- Industrial high power SMPS
Part Number
Input Voltage Vdc (V)
OutputVoltage
(V)
OutputCurrent
(A)
Power (W)
Frequency (kHz)
Duty cycle
TopologyInductance
(mH)
Leakage Inductance
(µH)
Turns Ratio
(Pri:Sec)
Max Total
losses (W)
HPTR-001 85-160 14 180 2.5 90-110 0.48 PS Full Bridge (*) 0.8 1 5:2 20
HPTR-002 260-420 14 160 2.2 90-110 0.43ZVS
Full Bridge2.94 1 14:1 15
HPTR-003 350-420 420 7.6 3.2 90-110 0.44 Full Bridge 3,47 1 12 :16 15
(^) ZVS Full Bridge topology with 4-diodes rectification
(*) Phase shift Full Bridge topology with current doubler for 14V application.
Notes
(1) All test data are referenced to 25°C ambient temperature
(2) Continuous operating temperature range must be within -40°C/+125°C (ambient + self heating) under worst case conditions;
exposure to 180°C peak is allowed. Thermal index H for all raw materials used
(3) Performances are subjected to change according to cooling capability of the cold plate where the component is fixed. It is
suggested to test the component at system level to verify its temperature rise after 30 minutes in the end application.
(4) Inductance values are measured at 10kHz/1V
(5) Hi-pot test between winding and between primary winding to core is above 5kV/50Hz/2sec
Dimensions Electrical Diagram
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POWER MAGNETICS for HEV Onboard SMPSBattery Chargers AC/DCNowadays, the market of hybrid and electrical vehicles is growing quite fast. These are alternative solutions to common thermal engine cars to reduce the global pollution, especially in terms of rejected CO2 or other NOx pollutants as well as toxic-for-health thin particles.
Onboard high-voltage batteries (200-450V or up to 600-800V) are firstly used to supply the electrical motor (power train). This source is also used in the vehicle to feed in energy the whole set of embedded electrical or electronic equipments (lamps, air conditioning system, GPS system, radio-set, ECUs…) that require a lower voltage. As for the electrical car, the plug-in hybrid version enables the charging of the battery through an external power cord connected to the mains.
The AC/DC corresponding power supply is dedicated to the charging of the batteries from the mains 50/60Hz network. Its power range varies from 3-4kW (complete charging in 7-8 hours) to 6-7kW (approx half-a-day charging) when plugged to the usual 1-phase domestic network. The power can be increased from 11-22kW (from the AC 3-phase network) to 50kW (DC network) for ultra-fast 30-60 minutes charging but it requires special charging stations to be installed through the cities.
Beyond the ZVS (zero voltage switching) topology, the LLC (inductor-inductor-capacitor tank) resonant half- or full-bridge is now preferred for high efficiency converters (> 90%) and EMI reduction. The switching frequency is commonly set in the 70-350kHz to optimize also the size and losses in semiconductors.
PREMO offers a wide range of high-quality magnetics dedicated to the onboard battery chargers. High performance materials are used for the best efficiency, high temperature stability and reinforced insulation.
Beyond CMC, PFC and other filtering chokes, the main power transformer is the heart of the converter. BCT and especially new BCIM series offer the best optimized solutions ready to be mounted. Low loss and high thermal stability ferrite cores are used to lower the iron losses on the wide -40°C/+140°C operating range. The use of special insulated Litz Wire in the windings and optimized coupling techniques not only offers the required creepage distance but also reduces AC copper losses at the switching frequency and its harmonics. Examples of mecahnical outlines are presented here and can be of course customized according to the customer’s needs. On the same way, turn-ratios and inductance values can be fixed in accordance with the ZVS or LLC converter operation.
HV/LV Converters DC/DCThe DC/DC power module used to supply in energy all the electronic devices present in the vehicle (lamps, air conditioning system, GPS system, radio-set, electronic computer units ECUs…) converts the high voltage from the batteries (200-450V) to the 12V to 14V low voltage (10-16V in the extended range). It is generally designed around a ZVS full-bridge topology.
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The corresponding power range depends on the car size and needs in energy. It can vary from 1.5kW for small electrical city cars to 3-7kW for full-hybrid medium to big sedan, estate or SUV cars. Moreover, a reinforced isolation is mandatory between high-voltage live parts and the end low-voltage with which the user can be in direct contact through conventional 12V plugs. The switching frequency is normally fixed between 70 and 150kHz.PREMO DCDC series corresponds to 400V/14V conversion in ZVS phase-shift full-bridge operation. A special winding technique is used to provide a good compromise between coupling, temperature rise and safety insulation. The use of low loss materials of high thermal index enables the operation on the wide temperature range of such automotive electronics (ambient -40/+125°C plus self-heating of the part). DCDC214-414 series shows different possible interfacing solution which can be fully adapted to the customers’ mounting and cooling constraints.
48V/12V Hybrid Systems DC/DCMild-hybrid systems are improving a lot already existing Start&Stop options. Better than just launching the thermal engine at every start, it enables the car to operate like an electrical vehicle up to a 20km/h speed before the thermal engine takes the lead. The topology is based on a starter-generator electrical motor coupled to the train and also to an additional 48V Lithium-ion battery for interim energy storage. The small electrical motor can also boost the engine during a high acceleration phase. On the other hand, it can supply energy back to the battery during regenerating breaking. Based on such a principle, the announced CO2 emission reduction is so interesting (up to -30%) that this system should become a must in any next generation of cars.Additionally, a 48V/12V DC/DC converter is used to ensure the interoperability with the low-voltage 12V electrical network. Its power is around 2kW and the topology is usually a symmetrical ZVS bridge that switches in the 70-150kHz range. This solution provides another compromise than using multiphase buck-boost converter which requires 4 to 6 high power chokes and the associated semiconductors.PREMO NPT series offers 2kW capability low-profile transformers with some already available turn-ratios to cover different battery voltage ranges. Its construction ensures a good cooling, easy and reliable connecting system by screws as well as the required circuit separation to provide basic insulation as per the applied automotive safety standards. In terms of manufacturing, copper frames and insulators which forms the stacked winding are processed by a robot which also deposits tin paste for the soldering by reflow. The assembling quality guarantees the lowest contact resistance and a high reliability for automotive usage.
Other related Inductive ComponentsA wide range of complementary magnetic components proposed by PREMO can be found in the catalogue so that PREMO can propose the whole set of inductives you need in your converter :- Input/output CMCs and other filtering chokes (ferrite or nanocrystalline cores)- PFC chokes for battery chargers (PFC Series)- Output DC filtering chokes (HPC Series)- Current measurement transformers for feedback and protection (CS, CM, CSAU and CS-35A Series)- Gate drive transformers for transistors control (GDAU series)
POWER MAGNETICS for HEV Onboard SMPS
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BCT SERIESAutomotive EV/HEV Isolated 3.3kW Battery Charger TransformerFeatures - Design for high performance 3.3kW on-board battery chargers- Cubic format for higher power density- Working frequency from 65 to 200kHz- Reinforced 3kV isolation between primary and secondary- Primary to secondary creepage distance > 8mm- High operating temperature range -40 to +125°C- UL94V-0 and RoHS material- Design compliant with AEC-Q200 requirements- No thermal aging effect- Weight : approx. 0.4kg
Application- Power stage after 400V PFC rectification- Automotive EV/HEV AC/DC on-board battery chargers- Half- or full-brigde ZVS or LLC resonant topologies- Industrial high-power SMPS
Code
MAXOutputPower(kW)
DC-LinkInput
Voltage(Vdc)
OutputVoltage(Vdc)
MAXOutputCurrent(Adc)
Switch.Freq.(kHz)
Topology
TurnRatio
(Pri:Sec)
Magneti-zing
Induct.
MAXLeakageInduct.
BCT-001 3.3 390-410 250-430 12 100Full-Bridge
ZVS*13:18
1mHMIN
2μH
BCT-002 3.3 360-400 260-410 13 65Full-Bridge
ZVS*17:21+21
1.7mHMIN
3μH
BCT-003 3.3 375-430 275-450 12 90-200Half-Bridge
LLC**13:22
50μH+/-5%
2μH
(*) A 4 to 6μH resonant inductor in series with the transformer primary winding is recommended for soft switching operation(**) Resonant tank made of Lr = 12.5μH and Cr = 120nF in series
Notes(1) All test data are referenced to 25°C ambient temperature(2) The inductance values are measured at 100kHz/1Vac(3) The isolation is 100% tested at 3kVac/50Hz/2sec/3mA
(4) The Pri/Sec creepage distance is guaranteed > 8mm(5) The component must be properly cooled down by mounting onto a water-plate heatsink at +85°C MAX(6) Other winding arrangements available on demand
Electrical specifications
Dimensions (mm)Electrical Diagram
Notes
- Mounting onto cold-plate heatsink by 4x M4 screws
- Output by flexible cables protected under sleeve
- Connecting M4 or M5 terminals on demand
- Center-tap secondary side on demand
- Customized case on demand
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BCIM SERIESAutomotive EV/HEV Isolated 3.5kW Battery Charger Integrated MagneticsFeatures - Design for high performance 3-4kW on-board battery chargers- Optimized size for higher power density- ZVS or resonant LLC operation in the 50 to 300kHz frequency range- Up to 2 chokes and 1 transformer in a single magnetic module- Reinforced 3kV isolation between primary and secondary- Primary to secondary creepage distance > 8mm- Wide operating temperature range -40 to +140°C- Cooling of core and winding mandatory for maximum performances- Ready for connection to main PCB by soldering or terminals screwing- NTC sensors included for thermal monitoring of the winding- UL94V-0 and RoHS materials- Design compliant with AEC-Q200 requirements- Weight : approx. 0.4kg
Application- Automotive EV/HEV AC/DC on-board battery chargers- Power stage after 400V PFC rectification- Half- or full-brigde ZVS or LLC resonant topologies
Code
MAX Output Power (kW)
DC-Link Input
Voltage* (Vdc)
Output Voltage (Vdc)
MAX Output Current (Adc)
Switch. Freq. (kHz)
Topo-logy**
Turn Ratio
(Pri:Sec)Lp (µH) Lr (µH)
BCIM-001 3.5 360-420 200-450 16.5 70-200 FB
LLC***1:1 130 (±8%) 22 (±5%)
BCIM-002 3.6 380-420 200-650 16.5 60-150 FB ZVS 2:3 1400 (±25%) 7 (±10%)
(*) After rectification and PFC stage(**) FB = Full-Bridge, ZVS= Zero-Voltage Switching, LLC = resonant topology with parallel Lp and serial Lr+Cr(***) Resonant tank with Cr = 100nF in series
Notes(1) All test data are referenced to 25°C ambient temperature(2) The inductance values are measured at 100kHz/1Vac(3) The isolation is 100% tested at 3kVac/50Hz/2sec/3mA(4) The Pri/Sec creepage distance is guaranteed > 8mm(5) The component must be properly cooled down by mounting onto a water-plate heatsink at +85°C MAX(6) The maximum operating temperature is 140°C MAX(7) NTC 10k resistors included in BCIM-001 version (outputs on square 0.64mm pins)(8) Other turn-ratios and/or inductance values available on demand
Electrical specifications
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BCIM SERIESAutomotive EV/HEV Isolated 3.5kW Battery Charger Integrated Magnetics
Dimensions (mm)
Electrical Diagram
Notes- Ready for direct mounting onto an interconnecting PCB- L2 and P1 to be connected in the application- NTC 10k resistors included to monitor the temperature of the windings- Optimized performances if potted in a cooled-down aluminum cavity part of the final housing
BCIM-001
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BCIM SERIESAutomotive EV/HEV Isolated 3.5kW Battery Charger Integrated Magnetics
Dimensions (mm)
Notes- Serial Lr and Lp parallel chokes fully included with no additional interconnection- Optimized performances if potted in a cooled-down aluminum cavity part of or linked to the final housing
ø4.3mm terminal for M4 screw
Electrical Diagram
BCIM-002
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DCDC SERIESPower Transformers for Automotive SystemsFeatures - Design for high-performance automotive 1.5kW to 4kW onboard DCDC converters- Low-profile mixed copper frames / litz wire technology- Dedicated to 12V/14V embedded electrical systems- Threaded M4 terminals ready for bus-bars - 12:1 turn-ratios proposed as standard- Working frequency 80-120kHz- Optimized leakage inductance value for best coupling and ZVS operation- 4kV isolation between primary and secondary- High PRIM/SEC creepage distance- High operating temperature range -40 to +150°C- UL94V-0 and RoHS materials- Design compliant with AEC-Q200 requirements- No thermal aging effect - Improved Thermal link- Weight : approx. 250g or 360g- Associated DC output filtering choke upon request- 3 different mechanical implementations
Application- Automotive EV-HV DC/DC systems
PartNumber
BatteriesInput
Voltage(V)
TypOutputVoltage
(V)
MaxOutputCurrent
(A)
MaxPower(kW)
Switch. Freq. (kHz)
MaxDuty-Cycle
Recom-mendedTopo-logy
Mag.Induc-tance(mH)
LeakageInduc-tance(µH)
Turn-Ratio
(Pri:Sec)
MaxTotal
Losses(W)
DCDC214x-001 240-450 14 150 1.5-2.5 80-100 0.45ZVS
PS-FB > 1.3 < 2 12:1+1 9.5
DCDC414x -001 240-450 14 210 3-4 80-120 0.45ZVS
PS-FB> 1.1 < 3 12:1+1 14.5
- “NULL” Standard with thermal insulated connections to a heatsink- “L” Lite version with no thermal connection- “E” version with different connections ( Equivalent to competitor)
Notes(1) The inductance values are measured at 100kHz/1Vac and at room temperature (20-30°C) (2) The isolation is tested at 4kVac/50Hz/2sec (1min for qualification) – between Primary and Secondary windings and between Primary and Core(3) The isolation is tested at 500Vac/50Hz/2sec (1min for qualification) – between Secondary and Core(4) Primary/Secondary creepage distance greater than 8mm for reinforced insulation up to 450Vdc(5) Continuous operating temperature range must be within -40/+150°C (including self-heating of the part)(6) Optimized for cooling by water-plate heatsink at +90°C Max(7) Estimated losses (at 100°C) do not take into account all possible extra losses due to frequency effects(8) x to be replaced by the letter equivalent to mechanical implementation choice (Null, L or E)
Electrical specifications
Electrical diagram
PS = Phase-Shift, FB = Full-Bridge, HB = Half-Bridge, ZVS= Zero Voltage Switching – 2-diode rectifier secondary side
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DCDC SERIESPower Transformers for Automotive Systems
DCDC214 – Standard with thermal insulated connections to a heatsink
P1 P2
S1 S2 S3
Dimensions (mm)
Recommended electrical connection (Secondary side) :- Ring terminal M4 (outer diam <10mm)Or direct bus bar- M4 Screw + contact washer + nut
Recommended mounting onto heatsink :- Adding of Sil-Pad 800 layer (20x13mm and 15x12mm) for insulation - M4 screwing
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P2
P1
S1 S2 S3
DCDC SERIESPower Transformers for Automotive Systems
Recommended electrical connection (Secondary side) :- Ring terminal M4 (outer ø <10mm)Or direct bus bar- M4 Screw + contact washer + nut
Recommended mounting onto heatsink :- Adding of Sil-Pad 800 layer (at least 22x12mm and 16.5x12mm) for insulation- M4 screwing
DCDC414 – Standard with thermal insulated connections to a heatsink
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DCDC SERIESPower Transformers for Automotive Systems
DCDC214L – “Lite” version – no thermal connection to a heatsink
DCDC414L – “Lite” version – no thermal connection to a heatsink
P1 P2
S1 S2 S3
Recommended electrical connection (Secondary side) :- Ring terminal M4 (outer ø <10mm)Or direct bus bar- M4 Screw + contact washer + nut
Recommended electrical connection (Secondary side) :- Ring terminal M4 (outer ø <10mm)Or direct bus bar- M4 Screw + contact washer + nut
P2
P1
S1 S2 S3
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DCDC SERIESPower Transformers for Automotive Systems
DCDC214E – “Equiv” version – with different thermal connections
Recommended electrical connection (Secondary side) :- Ring terminal M4 (outer ø <10mm)Or direct bus bar- M4 Screw + contact washer + nutRecommended mounting on heatsink :- Adding of Sil-Pad 800 layer (10x13mm² and 10x11.5mm²) for insulation- M3.5 screwing on the Aluminum and M4 screwing on the Terminals
P1 P2
S1 S2 S3
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HPC SERIESHigh Power Planar Chokes for HEV/HV Applications
Features - DC output filtering choke- High reliability- High current up to 180A- Working frequency up to 250kHz- Operating temperature range -40 to +125°C- UL94V-0 and RoHS material- Design compliant with AEC-Q200 requirements- Terminal connections using M4 PEM nuts- Weight : approx. 200g
Application- Automotive EV/HEV DC/DC converters and battery chargers- Industrial high power SMPS
Electrical specifications
CodeInductance
@0A(µH)
Full load(4) inductance
(µH)
DCRMAX(mΩ)
Losses (6-7)@100°C
(W)
SFRMIN
(MHz)
Winding tocore Isolation
(Vac)
HPC-001 5.1 3.6 1.20 25 1 600
HPC-002 3.0 2.2 0.65 25 1 600
Notes
(1) All test data are referenced to 25°C ambient temperature
(2) The inductance value is measured at 100kHz/1Vac
(3) The isolation is tested at 50Hz/2sec (1min for qualification)/ Maximum breakdown current lower than 1mA
(4) Minimum full load inductance tested at 120ADC for HPC-001 and 165ADC for HPC-002
(5) Continuous operating temperature range must be within -40/+125°C (including self-heating of the part)
(6) Thermals performances are subjected to change according to cooling capability of the cold plate where the component is fixed
(7) HPC-001 losses calculation : ΔI = 22A@100kHz and IDC = 110A-HPC-002 losses calculation : ΔI = 30A@100kHz and IDC = 150A
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HPC SERIESHigh Power Planar Chokes for HEV/HV Applications
Dimensions
Electrical Diagram
(*) Tolerance according ISO2768-m
PackagingExpanded Polypropylene (EPP) trays as returnable transit packaging (RTP)
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PFC SERIESPower Factor Correction Series
Applications- Automotive embedded battery chargers- Industrial high power SMPS
Electrical specifications
CodeInput
VoltageVac (V)
OutputVoltageVdc (V)
Power(kW)
Freq.(kHz)
L0 (3)
±10%(µH)
L MIN (4) atPeak
Current(µH)
DCRMAX(mΩ)
CurrentIrms(A)
RippleΔIpp(A)
Losses@100°C
(W)
Weight(kg)
PFC-001 230 385 4 67 310 > 80@27A 25 17 6 13 0,4
PFC-002 400 800 10 50 530 > 210@40A 60 25 10 52 1,1
PFC-003 (*) 400 800 20 50 2x 530 > 210@40A 2x 60 2x 25 10 2x 52 2,3
Notes All test data are referenced to 25°C ambient temperature Continuous operating temperature range must be within -40°C/+150°C (ambient + self heating) under worst case conditions ; exposure to 180°C peak is allowed according to IEC85 H thermal index for all raw materials used Performances are subjected to change according to cooling capability of the heatsink on which the component is fixed It is suggested that the component be tested at system level to verify its temperature after 60 minutes in the end application Inductance values are measured at 10kHz/0.25V Less than +/-5% variation on -40°C/+150°C temperature range See L vs. Idc curve beside Dielectric strength between windings and aluminum box is greater than 2.5kV/50Hz/2sec
Features- Chokes for CCM PFC operation- Can be used in a wide range of sinusoidal absorption rectifier circuits- Mounting onto water-plate heatsinks- Power rating : 4-10-20kW- Inductance range : 80µH to 500µH- Frequency range : 50-100kHz- H class component for operation up to 180°C- Very stable performances versus temperature- No thermal aging effect- Possibility of customized outputs- UL94V-0 material- RoHS compliant
(*) Dedicated to interleaved PFC topology (double-choke with center-tap)
(1)(2)
(3)
(4)
(5)
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Typical performances versus temperature and frequency
-5-4-3-2-1012345
-40 -20 0 20 40 60 80 100 120 140
Chan
ge o
f Ind
ucta
nce
(%)
Temperature (°C)
PFC-001
PFC-002/-003
5
10
15
20
25
30
10 20 30 40 50 60 70 80 90 100
Tota
l Los
ses (
W)
Frequency (kHz)
PFC-001 : I = 17Arms @100°C
Ripple = 10%
Ripple = 20%
Ripple = 30%
Ripple = 40%
Ripple = 50%
67kHz / 6App
40
50
60
70
80
90
10 20 30 40 50 60 70 80 90 100
Tota
l Los
ses (
W)
Frequency (kHz)
PFC-002 : I = 25Arms @100°C
Ripple = 10%
Ripple = 20%
Ripple = 30%
Ripple = 40%
Ripple = 50%
50kHz / 10App
PFC SERIESPower Factor Correction Series
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PFC SERIESPower Factor Correction Series
Dimensions
PFC-001
PFC-002
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Dimensions
Packaging
Antistatic trays with carton grids in carton box
PFC-003
PFC SERIESPower Factor Correction Series
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PFC SERIES - New
Features - Chokes for DCM/CCM PFC operation- Double interleaved power stage for current ripple reduction- Ready to be potted inside a cavity for good thermal dissipationand high electrical insulation- Reinforced insulation with ground up to 4kV (vacuum pottingrecommended), working voltage up to 450kV- Power rating : 3-7kW and 11kW (three phase option)- 2 types of material: • Amorphous based core (A): 45kHz, lower switching frequency for global better efficiently of the converter • Sendust material (S): 100kHz, typical- 150°C class raw materials- Very stable performances versus temperature- No thermal aging effect- UL94V-0 material- RoHS compliant
Application- Automotive embedded battery chargers
Notes(1) All test data are referenced to 25±5°C ambient temperature(2) Inductance values are measured at 100kHz/1V(3) Continuous operating temperature range must be within -40°C/+150°C (ambient + self heating) Performances are subjected to change according to cooling capability of the application on which the component is fixedIt is suggested that the component be tested at system level to verify its temperature after at least 1h of operation in the final application
Electrical specifications
CodeInput
VoltageVac (V)
OutputVoltageVdc (V)
Rate Power(kW)
Num-ber of
Chokes
Swit-ching Freq.(kHz)
L0±10% (µH)
per Choke
L MIN at Ipk
(µH)per Choke
DCRMAX
(mΩ)per Choke
Current Irms (A)
Ripple ΔIpp (A)
@Fsw
Losses @100°C (W) per Choke
PFC-3S1 230 400 3.5 2 100 200 >75@15A 30 8 8 4.5
PFC-7S1 230 400 7 4 100 200 >75@15A 30 8 8 4.5
PFC-3A1 230 400 3.5 2 45 500 >200@15A 60 8 8 6
PFC-7A1 230 400 7 4 45 500 >200@15A 60 8 8 6
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PFC SERIES - New
Dimensions
Electrical Diagram
PFC-3A1 / PFC-3S1 PFC-7A1 / PFC-7S1
PackagingESD plastic trays in carton boxes
Note:
Outputs are tinned and peeled and tinned on 6±1mm
Diameters are as follow:
PFC-3S1: Ø1.7
PFC-7S1: Ø1.7
PFC-3A1: Ø1.4
PFC-7A1: Ø1.4
Dimensions according to ISO 2768-1m
Tolerance on the pitch:
±0.5mm for Ø1.7mm
±1mm for Ø1.4mm
+0.1-0.2
+0.1-0.2
+0.1-0.2+0.1-0.2
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NPT SERIESPower Transformers for HEV Systems
Features - Design for high-performance automotive 2kW SMPS- Low-profile copper frames technology- Dedicated to 24 and 48V battery systems- Threaded M4 terminals ready for bus-bars- 3:2, 3:1 or 6:1 turn-ratios proposed as standard- Working frequency from 80 to 150kHz- Low leakage inductance value- 2.5kV isolation between primary and secondary- Creepage distance > 3mm- High operating temperature range -40 to +155°C- UL94V-0 and RoHS materials- Design compliant with AEC-Q200 requirements- No thermal aging effect- Weight : approx. 210g
Notes
(1) The inductance values are measured at 100kHz/0.1Vac and at room temperature (20-30°C)
(2) The isolation is tested at 2.5kVac/50Hz/2sec (1min for qualification)
(3) The creepage distance is guaranteed > 3mm
(4) Continuous operating temperature range must be within -40/+155°C (including self-heating of the part)
(5) Optimized for cooling by water-plate heatsink at 90°C Max
(6) Estimated losses (at 100°C) do not take into account all possible extra losses due to frequency effects
Electrical specifications
Part Number
DC-linkInput
Voltage Vdc (V)
TypOutputVoltage
(V)
MaxOutputCurrent
(A)
MaxPower (W)
SwitchingFrequency
(kHz)
MaxDuty cycle
RecomendedTopology
Mag.Inductance
(µH)
Leakage Inductance
(µH)
Turn Ratio
(Pri:Sec)
Max Total
Losses (W)
NPT-001 60-100 36-60 55 2000 80-100 0.48ZVS PS FB
with currentdoubler
> 90 0.15 3:2 15
NPT-002 90-110 24 90 2000 80-120 0.45 ZVS PS FB > 90 0.1 3:1 15
NPT-003 375-420 48 45 2000 80-150 0.40 HB > 360 0.4 6:2 11
NPT-004 375-420 24 90 2000 80-150 0.40 HB > 360 0.3 6:1 12
PS = Phase-Shift, FB = Full-Bridge, HB = Half-Bridge – 4-diode rectifier secondary side
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Electrical Diagram
Dimensions
NPT SERIESPower Transformers for HEV Systems
NPT-001/-002
NPT-003/-004
(*) This feature only appears in
NPT-001 (3:2 stacking)
(*) This feature only appears in
NPT-003 (6:2 stacking)
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PULSE TRANSFORMERS SERIES
IntroductionPulse transformers in power electronics aregenerally used for transmitting a signal ora controlling pulse between elec-tricallyisolated ciruits. The pulse comes from acircuit with a low voltage level while thesecondary part is connected to a highervoltage. This problem appears in thyristorsand triacs firing, and in power transistorscontrol.The high isolation voltage through the pulsetransformer protects the controlling circuitagainst transients from the power circuit.
Technical dataWhen a rectangular pulse is applied to theprimary winding, a voltage is induced inthe secondary during the rise time of thepulse. In this case, the voltage-time integralis the product of the pulse height andwidth. The voltage-time area is measuredon the secondary side in a no-loadcondition for an unipolar pulse.
The pulse shape must be transferred withthe minimum distorsion therefore the pulsemust possess a sharp edge, that is, a smallrise time (Tr). To achieve this, the parasiticelements such as leakage inductance (Lleak)must be minimized and the transformerneeds a high open circuit inductance (LP).Also, low values of the inductance makethe transformer more suitable to saturation. The coupling capacitance (CC) must bealso as small as possible to guarantee theprotection against the electromagne-ticinterferences.The turns ratio (NP:NS) of the pulsetransformer can be used to adjust signalamplitud and provide impedance matchingbetween the source and load.
The isolation voltage is measuredbetween windings in order to check thegalvanic separation of the circuit parts. In particular, the dielectric strength andfreedom from partial discharge.
The working voltage is the voltage in thesecondary winding. The security distances(creepage, clerances and distances throughthe isolation) and the isolation tests aredefined according to this value.
Operating principlesRegarding the equivalent circuit of a pulsetransformer, the influences of the electricalparameters can be understood. Assumingthat the output pulse is the result ofinjecting an ideal rectangular pulse, onecan see that some magnitudes aredistorsioned on the output pulse: declineof the pulse voltage over the duration ofthe pulse (voltage drop), rise time, etc.
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PULSE TRANSFORMERS SERIES
Considering an ideal transformer, there is no source impedance, winding capacitances or leakage inductance. With pri-mary and secondary switches open, there are not any currents flowing. If the primary is switched, the pulse transformer’s primary winding acts like an inductor, therefore primary current begins to flow. This is the magnitizing current (no se-condary current). If the power supply has constant voltage, the magnitizing current increases as a linear rate over time and creates a magnetic flux density in the transformer core. Eventually, this current would exceed the magnetix flux capacity of the core and will saturate it. If the saturation occurs, the primary current rapidly increases, in theory, towards infinity.In a real transformer, the primary winding resistance (RP) would limit the current. Consecuently, a voltage drop occurs across
RP. The value of this drop increases with time and the secondary voltage declines over time. If the secondary switch is closed, the primary leakage inductance restricts the flow of primary current by opposing the source voltage. Current flowing from the source finds the uncharged winding capacitance (CP) to be an easier path, hence a relatively large amount of current flows. This causes a large voltage drop across RP, thereby initially lowering the voltage available to Lleak and LP. Over time, the voltage drop diminishes, and the voltage across Lleak and LP reaches peak value. The current effectively delays the peak voltage across LP. This in turn delays peak secondary voltage.The delay contributes to rise time, hence CP contributes to rise time. Similar consequence happens with the secondary winding capacitance CS.
SeriesPremo has two series of pulse transformers intended to use in all the electronic applications. The PT series has as main feature its high isolation voltage between primary and secondary windings and also between secondary windings. This fact makes this series especially suitable for applications where the galvanic separation bet-ween both circuit parts is one of the most important design parameters. Also, it offers very high voltage-time integrals values, up to 2000µVs.The PI series has some formats with a special winding method that allows to obtain very small rise times. Additionally, they are available in Surface Mounting format, suitable for reflow soldering.
Equivalent simplified circuit for a Pulse Transformer
SERIES Voltage-time integral Frequency range Features
PT From 250 to 2000µVs Up to 10kHz- High isolation voltage between windings
- Low cost
PI From 150 to 400µVs Up to 50kHz- Very small rise times
- SMD formats available
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GDAU SERIESIsolated SMD Gate Drive Transformer up to 150Vµs
Features - 150Vµs MAX ET product- Design for high performance EV/HEV onboard SMPS- Height : 7.8mm MAX, Pick & Place compatible- Footprint : SMD 18 x 14.5mm MAX- RMS current rating : up to 0.5Arms- 1:1+1 turn ratio for bridge control- Working frequency from 90 to 125kHz- 3kV isolation between primary and secondary- High operating temperature range -40 to +155°C- AOI (Automatic Optical Inspection) component- UL94V-0 and RoHS material- Design compliant with AEC-Q200 requirements- No thermal aging effect- Weight : less than 5g
Application- Half- or full-bridge MOS transistors control in SMPS- Automotive EV/HEV DC/DC converters and battery chargers- Industrial high power SMPS
Electrical specifications
Code
MAX ETProduct(Vµs)
Turn-Ratio
PrimaryInductance
(uH)
SecondaryDCR
MAX (mΩ)
PrimaryDCR
MAX (Ω)
Primary toSecondary Isolation
(kVdc)
GDAU-001 150 1:1+1 400-800 0.8 0. 5 3
Notes
(1) All test data are referenced to 25°C ambient temperature
(2) The inductance value is measured at 100kHz/0.1Vac
(3) The isolation is tested at DC/2sec (1min for qualification) ;
(4) The creepage distance is guaranteed > 5mm
(5) Continuous operating temperature range must be within -40/+155°C (including self-heating of the part)
(6) Leakage inductance value is less than 2µH (viewed from primary side at 100kHz/0.1Vac)
(7) Inter-winding stray capacitance is less than 12pF (between prim shorted and sec shorted at 100kHz/0.1Vac)
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GDAU SERIESIsolated SMD Gate Drive Transformer up to 150Vµs
Dimensions (mm)
Electrical diagram Recommended Pad-Layout
Coplanarity < 150µm between all pins
TOP VIEW in mounting direction
Dimensions in mm Tolerance ±0.1
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GDAU SERIESIsolated SMD Gate Drive Transformer up to 150Vµs
Soldering
Packaging
Reflow or vapor-phase soldering processes are compatible to mount the component. A maximum soldering temperature of 260°C during 10s shall not be exceeded.
The reflow condition recommended is according to the equipment used at PREMO.
Differences could appear as a result of the type of machine, reflow conditions, method…
Standard Tape & Reel according to EIA-481 requirements (32mm wide carrier tape on 13” reel)
Series AO BO KO W S E T P P0 P2 D0 Parts/Reel
GDAU 15.6 16.6 7.3 32.0 28.4 1.75 0.40 20.0 4.0 2.0 1.5 400
(+/-0.1) (+/-0.1) (+/-0.1) (+/-0.3) (+/-0.1) (+/-0.1) (+/-0.05) (+/-0.1) (+/-0.1) (+/-0.1) (+0.1/-0) (approx.)
CURRENT SENSING
Current Transformers
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CM SeriesSMD Current Transformer Up to 6A
Features- Designed for switching power supply applications.- Nominal primary current 6 A rms.- Low profile: 4.9mm height.- Pick and place mounting.- Frequency range above 100KHz. - Taped & Reeled.- Operating temperature from -25º C to 105º C.
Product List
Notes:- Inductance at 0.1 Vac, 10KHz.- Terminating resistor for 1 V out with 6 amps AC in the primary.- Reverse polarity parts are available for all turns ratios: (CM-020R / CM-125R).- Hipot is 500 Vrms / 50 Hz / 2 seconds.- Ls: Secondary inductance.
Dimensions Schematics
Part Number Turns RatioLs min(µH)
Sec Rcu(Ω Max)
Load Resistor RB(Ω)
CM - 020 1 : 20 75 0.55 3.33
CM - 030 1 : 30 170 0.87 5.00
CM - 040 1 : 40 300 1.14 6.67
CM - 050 1 : 50 470 1.50 8.33
CM - 060 1 :60 675 1.75 10.00
CM - 070 1 : 70 920 4.75 11.67
CM - 100 1 : 100 1875 5.50 16.67
CM - 125 1 : 125 3000 6.50 20.83
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CS SeriesSMD Current Transformer Up to 15A
Features- Designed for switching power supply applications.- Low profile and self leaded, surface mount.- UL94-V0 Plastic material.- Taped & Reeled according to EIA 481.- Less than 8mm height.- Up to 15 Arms primary current.- Storage temperature -30º to 130º C.- Operating temperature from -20º to 105º C.
Product List
Notes:- Inductance is mesured at 100 KHz, 20 mVrms. *10 KHz, 60 mVrms.- Hipot is 500 Vrms, measured at 50 Hz, 2 seconds.- I, Rt are reference values only.- Reference values are for the one turn winding connected in parallel for unipolar operation at 200 KHz.
Dimensions Footprint
Schematics
Part NumberIp
(Arms)RB(Ω)
Ls(mH Min)
Sec Rcu(Ω Max)
Turns(Ns)
CS - 050 15 25 4.6 0,3 50
CS - 100 15 50 18.5 0,8 100
CS - 200 15 100 74* 2,8 200
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CSAU SERIESAutomotive HEV Current Transformer up to 35 Amps
Features- Design for high performance 2-3kW SMPS- Very low profile: 8.5mm max- Primary current up to 35 Arms- Working frequency from 100 to 250kHz- High isolation between primary and secondary- Potted solution assures safety creepage distance ≥5mm- High Operating Temperature -40 to 155 ºC.- AOI (Automatic Optical Inspection) component- Very stable performances versus temperature- No thermal aging effect- UL94V-0 material- RoHS compliant
General Application- Automotive HEV DC/DC Converters and Batteru Chargers- Industrial high power SMPS
Electrical specifications
Notes(1) All test data are referenced to 25°C ambient temperature(2) Inductance values are measured at 100kHz/0.1V(3) See L vs. Idc curve beside(4) Burden resistor from 5 to 10 Ohms(5) Continues operating temperature range must be within -40/+155ºC (ambient + self heating)
Typical inductance variation versus temperature
CodePrimary CurrentIrms (A)
Seconday Turns
Secondary InductancemH (Min)
DCR Primary typ (mOhm)
DCR Secondary typ
(Ohm)
Primary to Secondary Isolation
(kVdc)
CSAU-050 35 50 1.0 0.5 0.2 3
CSAU-100 35 100 4.0 0.5 0.8 3
CSAU-200 35 200 16.0 0.5 4.3 3
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CSAU SERIESAutomotive HEV Current Transformer up to 35 AmpsDimensions
Recommended PCB layout (view in mounting direction)
Electrical diagram
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CS-35AAutomotive EV/HEV Isolated SMD Current Transformer up to 35AmpsFeatures- Design for high performance 2-3kW SMPS- Height : 8.5mm MAX, Pick & Place compatible- Footprint : SMD 31 x 25.5mm MAX• RMS current rating : up to 35A- 1:100 turn ratio for 5-10Ω burden resistor- Working frequency from 50 to 250kHz- 3kV isolation between primary and secondary- Creepage distance > 5mm- High operating temperature range -40 to +155°C- AOI (Automatic Optical Inspection) component- UL94V-0 and RoHS material- Design compliant with AEC-Q200 requirements- No thermal aging effect- Weight : approx. 5g
General Application- Peak current sensing, current measurement for bridge control- Automotive EV/HEV DC/DC converters and battery chargers- Industrial high power SMPS
CodePrimary Current(Arms)
Seconday Turns
Secondary InductanceMIN (mH)
Secondary DCR MAX (Ω)
Primary DCR MAX (mΩ)
Primary to Secondary Isolation
(kVac)
CS-35A 35 100 5 1.6 1 3
Notes(1) All test data are referenced to 25°C ambient temperature(2) The inductance value is measured at 100kHz/0.1Vac(3) The isolation is tested at 50Hz/2sec (1min for qualification)(4) The creepage distance is guaranteed > 5mm
(5) Continuous operating temperature range must be within -40/+155°C (including self-heating of the part)(6) A burden resistor value from 5 to 10Ω is recommended(7) The amplitude error is estimated better than +/-2.5% on the 50-250kHz and -40/+155°C range (Rb = 5 to 10Ω)
Electrical specifications
Dimensions (mm)
Recommended Pad-Layout
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Features- Negligible amplitude error due to low core losses.- Reduced phase error due to simple electronic calibration.- Improved stability of the permeability across the entire temperature range.- Reduced core size or number of windings.- Frequency 50/60 Hz.- Operating temperature from -40º C to 85º C.
Product List
Notes:Nsec = 2500 *Nsec = 2000Ip primary-current range.Ipmax max.permissible AC-primary current without saturation.IDCmax max. DC-current value without saturation for class 1-counter (IEC 1036).tan F max. phase error concerning of Ip.RB burden resistance for 0.3V signal voltage at Ipmax.VB burden voltage RB during max Ip.Linearity better than <0.3% between 0.1A to Ip.Amplitude error better than 1%.Values in product list are referenced to 50 Hz measurements.Dielectric strenght 2500 Vac/50 Hz/1 min.Contact us for further technical data.
Test Circuit and Electrical Schematic
Part Numberfor pins
Part numberfor lead wire
IP(ARMS)
IPMax
(ARMS)IDCMax
(ADC)
Phase error
tan (º)
BurdenRB (Ω)
Burden voltage
VB (VRMS)
Centre hole
Ø (mm)
CWP-0061 B1 CWL-0061 C1 0.10 - 6 6 - < 0.5 125.0 0.3 6/7
CWP-0062 B1 (*) CWL-0062 C1 (*) 0.10 - 6 6 - < 0.6 100.0 0.3 6/7
- CWL-0201 A1 0.25 - 20 79 - < 0.3 37.5 0.3 5
- CWL-0202 A1 0.25 - 20 135 36 < 4 37.5 0.3 5
- CWL-0601 A2 0.50 - 60 83 - < 0.2 12.5 0.3 7
CWP-0600 B2 CWL-0602 A2 0.50 - 60 270 80 < 3.7 12.5 0.3 8.5/7
- CWL-1001 A3 1 - 100 176 - < 0.15 7.5 0.3 10
CWP-1000 B3 CWL-1002 A3 1 - 100 345 113 < 5 7.5 0.3 11.5/9.5
CWP/CWL SeriesHigh Precision 50 Hz KWh-meter Current Transformer
FOR A AND C HOUSING FOR B HOUSING
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CWP/CWL SeriesHigh Precision 50 Hz KWh-meter Current Transformer
Dimensions for A housing
Dimensions for B housing
Dimensions for C housing
TypeA
(MAX)B
(MAX)C
(MAX)D
(MIN)
A1 30.5 29.0 15 5.0
A2 31.5 31.5 15 8.0
A3 35.0 35.0 19 9.0
TypeA
(MAX)B
(MAX)C
(MAX)D
(MIN)
C1 25.0 23.5 11.5 7.0
TypeA
(MAX)B
(MAX)C
(MAX)D
(MIN)E
(±0.1)F
(±0.1)G
(±0.1)H
(±0.1)I
(±0.1)
B1 25.5 25.5 12.0 6.0 13.0 7.62 21.59 1.27 0.00
B2 31.5 32.0 15.0 8.0 16.0 10.00 25.50 2.54 2.54
B3 34.5 34.5 15.0 11.5 17.3 10.16 27.94 2.54 2.54
Tolerances ± 0.1 unless otherwise noted.
Dimensions in mm.
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CV/CH SeriesSMPS High Isolation (2500V min) Current Transformers
Features- Designed for switching power supply application.- Wide range of housings.- Cases made of UL94-V0 material.- Insulation 2.5 KVac.- Typical Frequency range 10 KHz ~ 200 KHz.- Storage temperature from - 20º C to 100º C.- Operating temperature from - 20º to 85º C.
Product List
Notes LS: Secondary inductance 10KHz / 10 mV. VB x : V = RB x Is t = 1/2F IP (A): Primary current. IS (A): Secondary current. RB (Ω): Load resitance. F (Hz): Switching frequency. Rcu (Ω): Secondary winding DCR.
Test Circuit
Part NumberPrim/Sec
RatioIpn
(ARMS)Sec Ls
(mH Min)Sec Rcu(Ω Max)
V x (VµS Max)
CV1 - 050 1/50 15 7.5 0.30 175CV1 - 100 1/100 15 30 0.70 350CV1 - 200 1/200 15 120 4 700CV2 - 050 1/50 25 8 0.30 300CV2 - 100 1/100 25 35 0.80 600CV2 - 200 1/200 25 140 3.80 1200CV3 - 050 1/50 40 8 0.20 500CV3 - 100 1/100 40 33 0.50 1000CV3 - 200 1/200 40 135 3 2000CV4 - 050 1/50 55 12 0.20 700CV4 - 100 1/100 55 45 0.60 1400CV4 - 200 1/200 55 180 2 2800CH2 - 050 1/50 25 8 0.30 300CH2 - 100 1/100 25 35 0.80 600CH2 - 200 1/200 25 120 4.2 1200CH3 - 050 1/50 40 8 0.20 500CH3 - 100 1/100 40 33 0.50 1000CH3 - 200 1/200 40 135 3 2000CH4 - 050 1/50 55 12 0.20 700CH4 - 100 1/100 55 45 0.60 1400CH4 - 200 1/200 55 180 2 2800
CH series CV series
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CV/CH SeriesSMPS High Isolation (2500V min) Current Transformers
Product List CV Serie
Dimensions in mm.Tolerances ± 0.1 unless otherwise noted.
Dimensions
Bottom view
Product List CH Serie
Dimensions in mm.Tolerances ± 0.1 unless otherwise noted.
Dimensions
Bottom view
Type A B C D E F
CV1 20 18 10.5 5 15 5
CV2 25.5 23 12.5 7.5 17.5 5
CV3 29.5 27 15 10 22.5 6
CV4 33.5 32 15 10 25 8
Type A B C D E F
CH2 23 22 15 20 12.5 5
CH3 28 28 17.5 25 15 6
CH4 33 32 17.5 30 20 8
EMC FILTERS
Three-Phase + Neutral Line Filters
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INTRODUCTION
Electromagnetic InterferenceMost electronic equipment generates electromagnetic interference,which in some cases may be intentional (a radiofrequency generator) or unwanted (electronic motor speed controller). This interference is mainly propagated in two ways, one via an energy conducting network, and the other through the air. These are called CONDUCTED INTERFERENCE (150 KHz TO 30 MHz) and RADIATED INTERFERENCE (30 MHz to 300 MHz), respectively.Also, electronic equipment can fail when working within an electromagnetic environment. This tendency to fail is very common and is known as ELECTROMAGNETIC SUSCEPTIBILITY.The relationship between perturbing and victim equipment is known as ELECTROMAGNETIC COMPATIBILITY.These terms are abbreviated as follows:EMC = Electromagnetic CompatibilityEMS = Electromagnetic SusceptibilityCE = Conducted Interference (Emission)RE = Radiated Interference (Emission)EMI = Electromagnetic Interference
Conducted InterferenceThe interference conducted through an energy conduction network has two propagation routes. COMMON MODE. Also called ASYMMETRIC. This perturbation is present between the safety earth and the conduction lines.DIFFERENTIAL MODE. Also called SYMMETRIC. This perturbation is present in the conduction lines.
Radiated InterferenceThis propagation through space is caused by the fact that the equipment, or some part of it, is acting as an efficient antenna over a given frequency range. It is captured, by induction, in the power supply cable, or even directly by some internal element of the device which acts as an efficient receiving antenna over the same frequency range as the interfering signal.
How to minimize the interferenceIn order to avoid a high degree of contamination of the power supply lines with electromagnetic interference (EMI), equipment which could cause its generation should incorporate a power line filter, in order to block, as far as possible, the passing of this interference. Also, as it is not possible to have a clean power supply line, the line filter also prevents the passing of this interference to the equipment.a) The filter has to attenuate the interference passed to the power line.b) The filter has to attenuate the interference from the power line.Basically, the filters should be designed as low-pass filters, to achieve a significant attenuation in the frequency band which covers the interference, and a minimal attenuation at the power line frequency.Of course, the design of a filter has to take into account also that its characteristic impedance should be as unmatched as possible to that of the interference in order that the perturbation is reflected back to its source.
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INTRODUCTION
Filter characteristicsThe filters should cover the range of frequencies between 10 KHz and 300 MHz, although the range can be different depending on the standard to be applied. They should generate high insertion losses within the specified frequency range.The insertion losses should be defined for both SYMMETRIC and ASYMMETRIC modes.As the filters are normally installed in the power supply line, they should comply with the appropiate standards.
Special Line FiltersIn this catalogue it is possible to select power line filters of one or more stages, with spade fasterners, cables, screw mounting. If you do not find the type which best suits your requirements for current attenuation, size, mounting, etc. We can manufacture the model which suits your requirements on request.PREMO has a laboratory equipped with the most modern and sophisticated instrumentation to be found on the market, and its manufacturing plant uses a flexible production system which allows it to offer made to measure solutions.
Selection and installationThe choice of the most suitable power line filter and its installation in the equipment are of primary importance if we wish to fully benefit from its features. As can be seen later on, we have models with and direct access from the exterior, and others for internal mounting on the chassis. In all cases the external shielding of the power line filter should be connected to the equipment chassis and the power and load lines should be as short as possible and sufficiently separated.
Verification TestsIn the final stage of the manufacturing process, the PREMO power line filters have to pass strict verification tests to check their reliability and safety for use. The methods followed are described below:
1) High voltage testApply voltage of:1800 VAC 50 Hz 2s between L-N/PE1700 VDC 2s between L/N
2) Leakage current testThe verification is carried out according to standards using specially designed equipment. The limits are indicated for each series. See diagram in fig. 4.
3) Attenuation testAttenuation is defined as the relation, in dB between the power input to the load with and without the filter over the full range of working frequencies.See diagrams for the measurement of attenuation in common and differential modes in fig. 5 and 6.
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General Technical Characteristics- Rated voltage single phase: 250 VAC 50/60 Hz- Rated voltage three phase: 520/760 VAC 50/60 Hz- Rated current: The rated current, INOM is given for an ambient temperature the permissible operating current, IPERM, must be reduced according to the follwing formula:
- Leakage current: 250 V 50/60 Hz0.552 x rated for 115 V 50/60 Hz- Climatic category: HPF (-25oC to +85oC)/HMF (-25oC to +100oC) acc. to DIN40040- Component tolerance:L: -30%, +50% C: -20%, +20%R: -10%, +10%- Types of connexion:Z = Faston 6,30 x 0,8 mmX = Cables UL-1015W = Screws M4 / M6 / M10B = Terminal blockP= Bus Bar
Diagram Powerline
Figure 4
Figure 5 Figure 6
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RAPID GUIDE
THREE PHASE FILTERS
3-Phase Filter
Single StageFVSB (7-180A)
General Purpose with Minimum attenuation
Book-Shelf Type Page: 162
DPF (25-50A) High Attenuation DIN-Rail Type Page: 164
Double Stage FVDT(7-900A) Very High attenuation Chassis Type Page: 159
3-Phase + Neutral Filter
Single Stage PFT (3-150A)General Purpose with Minimum attenuation
Chassis Type Page: 166
DPFN(25&35A) High Attenuation DIN-Rail Type Page: 164
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FVDTThree-Phase Filters for Frequency Converters without Neutral (6-900A)
Electrical schematics
General SpecificationsMaximum operating voltage: 520Vac.Operating frequency: DC - 60Hz.Hipot test voltage: L/N-›PE: 3000Vdc 2s. Li-›Lj: 2250 Vdc 2s.Application class: HMF Acc. TO DIN 40040 (-25ºC/+100ºC/95% RH, 30d)Flammability class: UL 94 V2.
Three phase double stageDouble stage three phase filter.High performance for frequency inverters.High current.High voltage versions are available
Product List
TYPE I@50ºC L CX/CX’/CX’’ CY/CY’ R/R’(MΩ)
HOUSINGMax.
Ifug mAIEC 950
Max. Ifug mA
520V 50Hz
CONNECTIONWEIGHT
±g
FVDT-007B 7 A 4,91 mH 1/1,5/1,5 µF -/1,5 µF 1/0.68 M 301 88 mA 8,8 mA 4mm2 1200
FVDT-007X 302 4mm2 + AWG18 1200
FVDT-016B 16 A 4,4 mH 2,2/2,2/1,5 µF -/1,5 µF 1/0.68 M 303 92 mA 8,8 mA 4mm2 1700
FVDT-016X 304 4mm2 + AWG11 1700
FVDT-030B 30 A 1,94 mH 2,2 µF -/2,2 µF 1/0.68 M 307 150 mA 15 mA 10mm2 1900
FVDT-030X 308 10mm2 + AWG9 1900
FVDT-042B 42 A 1,5 mH 2,2 µF -/2,2 µF 1/0.68 M 307 158 mA 16 mA 10mm2 2000
FVDT-042X 308 10mm2 + AWG9 2000
FVDT-055B 55A 1,08 mH 2,2 µF 0,1/2,2 µF 1/0.68 M 310 158 mA 16 mA 16mm2 2200
FVDT-055X 311 16mm2 + AWG6 2200
FVDT-075B 75 A 0,85 mH 2,2 µF 0,1/2,2 µF 1/0.68 M 310 158 mA 16 mA 25 mm2 4000
FVDT-100BE 100A 800µH 2,2 µF 0,1/2,2 µF 1/0.68 M 310 153 mA 15,4 mA 50 mm2 5800
FVDT-130BE 130 A 320µH 4,4/4,4/2,2 µF 0,1/2,2 µF 1/0.68 M 310 167 mA 15,9 mA 50 mm2 6600
FVDT-150BE 150A 160µH 4,4/4,4/2,2 µF 0,1/2,2 µF 1/0.68 M 310 167 mA 15,9 mA 50 mm2 7000
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Insertion Loss
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FVDTThree-Phase Filters for Frequency Converters without Neutral (6-900A)Electrical schematics
General SpecificationsMaximum operating voltage: 520Vac.Operating frequency: DC - 60Hz.Hipot test voltage: L/N-›PE: 3000Vdc 2s Li-›Lj: 2250 Vdc 2s.Application class:HMF Acc. TO DIN 40040 (-25ºC/+100ºC/95% RH, 30d)Flammability class: UL 94 V2.
Product List
Insertion Loss
TYPEI@
50ºCL CX/CX’/CX’’ CY/CY’
R/R’(MΩ)
HOUSINGMax.
Ifug mAIEC 950
Max. Ifug mA520V 50Hz
CONNECTIONBus Bar
WEIGHT±g
FVDT-150WE 150 A 160 µH 4,4/4,4/2,2µF 0,1/2,2 µF 1/0.68 M 313 167 mA 15,9 mA 20X3 Ø8,5 23,5+10 7500
FVDT-180WE 180 A 160 µH 4,4/4,4/2,2µF 0,1/2,2 µF 1/0.68 M 313 167 mA 15,9 mA 20X3 Ø8,5 23,5+10 8300
FVDT-280WE 280 A 160 µH 4,4/4,4/2,2µF 0,1/2,2 µF 1/0.68 M 313 167 mA 15,9 mA 25X5 Ø10,5 18,5+15 9500
FVDT-400W 400 A 150 µH 2,2/4,4/4,4µF 0,1/2,2 µF 1/0.68 M 315 189,7 mA 18,3 mA 30X5 Ø11 25+15 14400
FVDT-660W 660 A 110 µH 2,2/4,4/4,4µF 0,1/2,2 µF 1/0.68 M 315 189,7 mA 18,3 mA 30X10 Ø11 25+15 16800
FVDT-900W 900 A 110 µH 2,2/4,4/4,4µF 0,1/2,2 µF 1/0.68 M 315 189,7 mA 18,3 mA 40X10 Ø14 30+20 20000
FVDT-150BE 150 A 160 µH 4,4/4,4/2,2 µF 0,1 / 2,2 µF 1 / 0,68 M 310 167 mA 15,9 mA 50mm2 7000
Three phase double stageDouble stage ultra compact three phase filter.High performance for frequency inverters.
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FVSBThree-Phase Filters One Stage Filter (7-180A)
Electrical schematics
General SpecificationsMaximum operating voltage: 520Vac.Operating frequency: DC - 60Hz.Hipot test voltage: L/N-›PE: 3000Vdc 2s. Li-Lj: 2250 Vdc 2s.Application class: HMF Acc. TO DIN 40040 (-25ºC/+100ºC/95% RH, 30d).Flammability class: UL 94 V2.
Three phase single stageFor industrial equipments.Easy to install.Compact size.
Product List
TYPEI@
50ºCL CX/CX’ CY
R(MΩ)
Max. Ifug mAIEC 950
Max. Ifug mA
520V 50Hz
CONNECTIONTRM.Block
WEIGHT±g
FVSB-007B 7 Amp 3,9 mH 1 µF 470 nF 1MΩ 38 mA 3,7 mA 4mm2 450
FVSB-016B 16 Amp 900 µH 2,2 µF 470 nF 1MΩ 39 mA 3,7 mA 4mm2 650
FVSB-030B 30 Amp 700 µH 4,4/2,2 µF 470 nF 1MΩ 44 mA 4 mA 6mm2 1000
FVSB-042B 42 Amp 500 µH 4,4/2,2 µF 470 nF 1MΩ 44 mA 4 mA 10mm2 1100
FVSB-055B 55 Amp 360 µH 4,4/2,2 µF 470 nF 1MΩ 44 mA 4 mA 16mm2 1250
FVSB-075B 75 Amp 150 µH 4,4/2,2 µF 470 nF 1MΩ 44 mA 4 mA 25mm2 2000
FVSB-100B 100 Amp 170 µH 4,4/2,2 µF 470 nF 1MΩ 44 mA 4 mA 50mm2 3100
FVSB-130B 130 Amp 75 µH 4,4/2,2 µF 470 nF 1MΩ 44 mA 4 mA 50mm2 3200
FVSB-180B 180 Amp 75 µH 4,4/2,2 µF 470 nF 1MΩ 44 mA 4 mA 90mm2 4550
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FVSBThree-Phase Filters One Stage Filter (7-180A)
Insertion Loss
7A 16A 30A 42A 55A 75A 100A 130A 180AA 190 250 270 310 310 270 270 270 380B 70 70 85 85 90 140 150 150 170C 40 45 60 60 60 85 90 90 120D 160 220 240 280 280 240 240 240 350E 180 235 255 295 295 255 255 255 365F 20 25 30 30 30 60 65 65 102G 4,5 5,4 5,4 5,4 5,4 6,5 6,5 6,5 6,5H M5 M5 M5 M6 M6 M6 M10 M10 M10
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DPF & DPFNDIN Rail PLASTIC Filter for Industrial Application
Features- Light Weight- Without Metal Housing - Compact Size- Double Mounting (Panel or Din-Rail)- Easy to handle and install with application
Applications- Inverters- UPS - Suitable for other Indoor Industrial equipments
Electrical schematics
General Specifications
General Specifications
PARAMETERS DPF DPFN
Rated Voltage 480VAC, Max 520VAC 480VAC, Max 520VAC
Operating frequency 50/60 Hz 50/60 Hz
Application Class; Acc.DIN40040
HPF (-40ºC/+85ºC/95% RH, 30d) HPF (-40ºC/+85ºC/95% RH, 30d)
Flammability Class UL 94 V-2 or Better UL 94 V-2 or Better
Hi-Pot test VoltageLi->Lj : 2200VDC, 2’’Li->M : 3000VDC, 2’’
Li->Lj : 2200VDC, 2’’Li->M : 3000VDC, 2’’
Type
Rated Current
(A) @ 40 ºc
Typical Power rating
(KW)
Leakage current
(mA) at 480Vac, 50Hz
Power Losses (W)
Termination (Input & Output)
Weight (Kg)
DPF-025 25 15 < 7,5mA 6 11 AWG 1,1
DPF-035 35 22 < 15mA 10 9 AWG 1,3
DPF-050 50 30 < 15mA 11 9 AWG 1,4
DPFN-025 25 15 < 1mA 7 11 AWG 1,3
DPFN-035 35 22 < 1mA 9 9 AWG 1,4
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DPF & DPFNDIN Rail PLASTIC Filter for Industrial Application
Mechanical Dimensions (mm)
Insertion Loss ( Asymetrical-green & Symetrical-yellow)
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Three phase + Neutral filtersSingle stage three phase + neutral filter.For switching applications.
Product List
PFTThree-Phase + Neutral Filters for General Use (3-150A)
Type I@40ºC L1 CX/CX’ CY R HOUSINGMax.
Ifug mAIEC 950
Max. Ifug mA
400V 50HzCONNECTION
WEIGHT±g
PFT-3Z 3 Amp 1 mH 0,1 µF 20 nF -- 401 485 µA 43 µA FASTON 6,3mm 220PFT-6Z 6 Amp 0,45 mH 0,1 µF 4,7 nF -- 401 485 µA 43 µA FASTON 6,3mm 220
PFT-10Z 10 Amp 0,2 mH 0,1 µF 4,7 nF -- 401 485 µA 43 µA FASTON 6,3mm 240PFT-20Z 20 Amp 0,2 mH 0,1 µF 22 nF -- 401 1,9 mA 191 µA FASTON 6,3mm 240PFT-20W 0,2 mH 0,1 µF 22 nF 402 1,9 mA 191 µA M6 SCREW 550PFT-25B 25 Amp 1,3 mH 2,2 µF 15 nF 110 KΩ 403 3,2 mA 280 µA 4mm2 1500PFT-25W 404 M6 SCREWPFT-36B 36 Amp 1 mH 2,2 µF 15 nF 110 KΩ 403 3,2 mA 280 µA 6mm2 1500PFT-36W 404 M6 SCREWPFT-50B 50 Amp 0,55 mH 2,2µF/100 nF 15 nF 1MΩ 403 3,2 mA 280 µA 10mm2 1700PFT-50W 404 M6 SCREWPFT-65B 65 Amp 0,36 mH 2,2 µF 22 nF 1MΩ 403 4,7 mA 412 µA 10mm2 1700PFT-65W 404 M6 SCREWPFT-80B 80 Amp 0,5 mH 1 µF 22 nF 470kΩ 410 4,7 mA 410 µA 25mm2 3000PFT-80W 470kΩ 412 M10 SCREWPFT-110B 110 Amp 0,25 mH 1 µF 22 nF 410 4,7 mA 410 µA 50mm2 3200PFT-110W 470kΩ 412 M10 SCREWPFT-150B 150 Amp 0,25 mH 2,2 µF 22 nF 410 4,7 mA 412 µA 50mm2 3500PFT-150W 110KΩ 412 M10 SCREW
General SpecificationsMaximum operating voltage: 520Vac.Operating frequency: DC - 60Hz.Hipot test voltage: L/N-›PE: 3000Vdc 2s. L-›N: 1300 Vdc 2s Li-›Lj: 2250 Vdc 2s.Application class: HPF Acc. TO DIN 40040 (-25ºC/+85ºC/95% RH, 30d).Flammability class: UL 94 V2.
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Insertion Loss
PFTThree-Phase + Neutral Filters for General Use (3-150A)
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HOUSINGMechanical dimensions
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HOUSINGMechanical dimensions
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HOUSINGMechanical dimensions
PLC COMPONENTS
Inductive CouplersBlocking Filters
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MICU 300AMedium Voltage Inductive Coupling Units
Features- High current solution made with high permeability
high performance nanocrystaline material avoids saturation problems at high currents.
- Low insertion losses –4dB ±2dB (@2-40MHz range).
- More electrical safety: High insulation: 5 kV.- Compact equipment: BNC connector integrated
in the coupler (other connections available under request).
Electrical characteristics
Nominal current 300 A
Rated Voltage
Only depends on the insulation level of the cable
Rated AC withstand voltage
Rated lightning withstand voltage (1.2/50s)
Insulation resistance
Partial discharge level at 1.2 UN
No discharges possible, cou-pler is completely at ground potential
-12dB±2dB @100 to 250 kHz
Nominal impedance Coupling side Equipment side
20 to 50 50
Average power in permanence > +40 dBmW
Harmonic distortion and intermodulation < -60 dB
Dielectric strength 5 kV
Working temperature -20°C to 60°C
Storage temperature -40°C to 85°C
Weight <2.5 kg
Climatic category25/100/21 according to IEC60068-1
Safety isolation According to IEC 60950
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MICU 300AMedium Voltage Inductive Coupling Units
Dimensions
Installation
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MICU 300A-S/LFMV ICU-300A / Low Freq. (30-500kHz)
Electrical characteristics
Dimensions All dimensions are in mm.Tolerances unless specified: ±1,0mmCritical dimensions (*)
Nominal current 300 A
Rated Voltage
Only depends on the insulation level of the cable
Rated AC withstand voltage
Rated lightning withstand voltage (1.2/50ms)
Partial discharge level at 1.2 UN
Insulation resistance
Transmission frequency range and attenuation
-12dB±2dB @100 to 250 kHz- 5dB±2dB @250 to 600 kHz
Nominal impedance Coupling side Equipment side
20 to 50 Ω 50 Ω
Average power in permanence > +40 dBmW
Harmonic distortion and intermodulation < -60 dB
Dielectric strength >4.7kV
Working temperature -20°C to 60°C
Storage temperature -40°C to 85°C
Weight <2.5 kg
Climatic category25/100/21 according to IEC60068-1
Safety isolation IEC 60950
Normative IEC 61869
Attenuation (dB) in working frequency range
Features- High current solution made with high permeability high
performance materials avoid saturation problems at high currents- Low insertion losses 12dB±2dB (@100-
250kHz) ; 5dB±2dB (@250-600kHz)- More electrical safety: High insulation > 4.7 kV- Compact equipment: BNC connector integrated in the
coupler (other connections available under request)- Water resistant (IP65)
Applications- AMR (Automatic Meter Recording)- Automation of Electric Power Distribution System- Outdoors Bare Overhead Power Lines
PLC Band: Europe:
CENELEC B (95-125kHz)
CENELEC C (125-140kHz)
CENELEC D (140-148.5kHz)
USA:
FCC (10kHz-490kHz)
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MICU 300A OH/LFMV ICU 300A Low Freq.(30-500kHz) Outdoor Overhead
Electrical characteristicsNominal current 300 A
Rated Voltage
Rated voltage up to 24kV
Rated AC withstand voltage
Rated lightning withstand voltage (1.2/50ms)
Partial discharge level at 1.2 UN
Insulation resistance
Transmission frequency range and attenuation
-12dB±2dB @100 to 250 kHz- 5dB±2dB @250 to 600 kHz
Nominal impedance Coupling side Equipment side
20 to 50 Ω 50 Ω
Average power in permanence > +40 dBmW
Harmonic distortion and intermodulation < -60 dB
Dielectric strength >24kV
Working temperature -20°C to 60°C
Storage temperature -40°C to 85°C
Weight <2.5 kg
Climatic category25/100/21 according to IEC60068-1
Safety isolation According to IEC 60950
Normative IEC 61869
Attenuation (dB) in working frequency range
All dimensions are in mm.Tolerances unless specified: ±1,0mmCritical dimensions (*)
Dimensions
Features- High current solution made with high permeability high performance materials avoid saturation problems at high currents
- Low insertion losses 12dB±2dB (@100-250kHz) ; 5dB±2dB (@250-600kHz)
- More electrical safety: High insulation > 24 kV- Compact equipment: IP67 waterproof cable assembly integrated in the coupler (other connections available under request)
- Water resistant (IP65)
Applications- AMR (Automatic Meter Recording)- Automation of Electric Power Distribution System- Outdoors Bare Overhead Power Lines
PLC Band: Europe:
CENELEC B (95-125kHz)
CENELEC C (125-140kHz)
CENELEC D (140-148.5kHz)
USA:
FCC (10kHz-490kHz)
180
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MICU 300A-W/LFMV ICU / Low Freq. (30-500kHz) Underground WR Immersion
Dimensions
Electrical characteristics
Nominal current 300 A
Rated Voltage
Only depends on the insulation level of the cable
Rated AC withstand voltage
Rated lightning withstand voltage (1.2/50ms)
Partial discharge level at 1.2 UN
Insulation resistance
Transmission frequency range and attenuation
-12dB±2dB @100 to 250 kHz- 5dB±2dB @250 to 600 kHz
Nominal impedance Coupling side Equipment side
20 to 50 Ω 50 Ω
Average power in permanence > +40 dBmW
Harmonic distortion and intermodulation < -60 dB
Dielectric strength >4.7kV
Working temperature -20°C to 60°C
Storage temperature -40°C to 85°C
Weight <2.5 kg
Climatic category25/100/21 according to IEC60068-1
Safety isolation According to IEC 60950
Normative IEC 61869
Attenuation (dB) in working frequency range
Features- High current solution made with high permeability high
performance materials avoid saturation problems at high currents- Low insertion losses 12dB±2dB (@100-
250kHz) ; 5dB±2dB (@250-600kHz)- More electrical safety: High insulation > 4.7 kV- Compact equipment: BNC connector integrated in the
coupler (other connections available under request)- Waterproof (IP67)
Applications- AMR (Automatic Meter Recording)- Automation of Electric Power Distribution System- Outdoors Bare Overhead Power Lines
PLC Band: Europe:
CENELEC B (95-125kHz)
CENELEC C (125-140kHz)
CENELEC D (140-148.5kHz)
USA:
FCC (10kHz-490kHz)
All dimensions are in mm.Tolerances unless specified: ±1,0mmCritical dimensions (*)
181
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BF (PLC BLOCKING FILTERS-SINGLE PHASE)Features & Application- Specially designed for Smart meters which comply with PLC
G3 , PRIME & CENELEC Band A technology - Designed to meet according to EN 50065-1 regulations- MM models Support Smart meters with Re-connection
Mechanism. - Safe terminal with double screws connection - Good attenuation level without GROUND or PE system and
designed with 3 different level of attenuation - Patent Pending for BF-xx-MM series
Parameters Very High performance Type High performance Type General Type
Equivalent electrical schematic
Operating Voltage (Max) 250Vac (275Vac) 250Vac (275Vac) 250Vac (275Vac)
Operating Frequency 50 / 60 Hz 50 / 60 Hz 50 / 60 Hz
Operating Current at ambient 40A @ 40°C 40A @ 40°C 40A @ 40°C
Supporting current for Hours & Min´s
45A and 63A 45A and 63A 45A and 63A
PREMO Part Number BF-40 & BF-40-MM BF-40S & BF-40S-MM BF-40SP & BF-40SG3
Operating Temperature Range (-25ºC to +100ºC) (-25ºC to +100ºC) (-25ºC to +100ºC)
Storage Temperature Range (-25ºC to +85ºC) (-25ºC to +85ºC) (-25ºC to +85ºC)
Filter Characterictics (CENELEC Band)
9 to 150KHz (Band A,B,C,D) 9 to 150KHz (Band A,B,C,D) 35 to 90Khz (Band A)
Attenuation Level ( mainly 35-90Khz)
> 40 dB & > 20dB for-MM
> 30 dB & > 18dB for-MM
>20 dB
High Surge Protection (Phase-Neu.)
10000 A, 8/ 20µs 10000 A, 8/ 20µs NA
MTBF at 25°C, 230Vac, 40A (ref.)
Minimum 20 years Minimum 20 years Minimum 20 years
Dielectric strength for 60 sec´s Phase-Housing = 2.5KVac Phase-Housing = 2.5KVacPhase-Housing =
2.5KVac
without surge protection Phase-Neutral = 1.7KVdc Phase-Neutral = 1.7KVdcPhase-Neutral =
1.7KVdc
Leakage Current Nil (no PE insisted)
Installing in 3 Phase system Max. Voltage P-P = 480VacMax. Voltage P-P =
480VacNA
Dimensions in mm 200L x 103W x 80H 180L x 90W x 70H 85L x 85W x 60H
Weight Approx. In Kg +/- < 2.2 Kg < 1.5Kg < 0.6Kg
Ingress Protection IP 30 IP30 IP30
Mounting Style Din-Rail 35 + Panel Din-Rail 35 + Panel Panel
Safety Regulation FollowedEMC Directive 2004/108/EC, UL1283, EN60939-2, IEC 60950-1 & RoHS
2011/65/EU
Suitable for Compliance EN 50065-1
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BF (PLC BLOCKING FILTERS-SINGLE PHASE)
Connection Diagram
Applicable for BF-40 / BF-40-MM and BF-40S / BF-40S-MM
Applicable for BF-40SP & BF-40SG3
Detail Dimensions
Used in BF-40, BF-40-MM
Used in BF-40SP, BF-40SG3
Used in BF-40S, BF-40S-MM
Note: PREMO BF Series developed with IP30, becuase our products designed to fit inside of Meter cabinets. In this case, Meter cabient has better Ingress Protection (IP54 to IP67), so Filter is not necessary to have better Ingress Protection thus avoid high cost for the filter.
Example- Meter with Filter- Normal Version Example- Meter with Filter-MM version
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SPAINPREMO S.LC / Severo Ochoa 47 PTA29590 Campanillas, Málaga - EspañaTeléfono: +34 951 23 13 20Fax: +34 951 23 13 21PREMO S.LC /. PEDRO i PONS, 9-11, Floor12, Doors 1-208034 Barcelona, SpainTeléfono: +34 934 098 980 / Fax: +34 934 906 682
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