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・All specifications are subject to change without notice.
1
CC 3 - 05 05 S F -E■ Features
●Mounting area halved compared to existing products●Nonuse of tantalum capacitor or aluminum electro-
lytic capacitor●Remote On/Off function incorporated in all series of
products
●5-side metal-shielded low noise design●Lightweight design with no resin filled up
●Supports DIP insertion,SMD mounting and SIP vertical insertion (3W products)
CC-E
■ Product Line up
Insulation type DC-DC converter
■ Applications
■ Model-naming method
Shape
Symbol for number of outputsS: Single output, D: Dual outputsNominal output voltage03: 3.3V, 05: 5V, 12: 12V
Nominal input voltage05: 5V, 12: 12V, 24: 24V, 48: 48V
Maximum output power1R5: 1.5W, 3: 3W, 6: 6W, 10: 10W
Representing series name by combination with "-E"at the end
Output power
Input voltage
Model name (output voltage: 3.3V)
Model name (output voltage: 5V)
Model name (output voltage: 12V/15V)
Model name
Output current DIP type SMD type SIP type Output current DIP type SMD type SIP type Output current DIP type SMD type SIP type Output current DIP type SMD type SIP type
1.5W
5V 0.4A CC1R5-0503SF-E CC1R5-0503SR-E - 0.3A CC1R5-0505SF-E CC1R5-0505SR-E - 0.125A (0.1A) CC1R5-0512SF-E CC1R5-0512SR-E - 0.06A (0.05A) CC1R5-0512DF-E CC1R5-0512DR-E -12V 0.4A CC1R5-1203SF-E CC1R5-1203SR-E - 0.3A CC1R5-1205SF-E CC1R5-1205SR-E - 0.125A (0.1A) CC1R5-1212SF-E CC1R5-1212SR-E - 0.06A (0.05A) CC1R5-1212DF-E CC1R5-1212DR-E -24V 0.4A CC1R5-2403SF-E CC1R5-2403SR-E - 0.3A CC1R5-2405SF-E CC1R5-2405SR-E - 0.125A (0.1A) CC1R5-2412SF-E CC1R5-2412SR-E - 0.06A (0.05A) CC1R5-2412DF-E CC1R5-2412DR-E -48V 0.4A CC1R5-4803SF-E CC1R5-4803SR-E -
-
0.3A CC1R5-4805SF-E CC1R5-4805SR-E - 0.125A (0.1A) CC1R5-4812SF-E CC1R5-4812SR-E - 0.06A (0.05A) CC1R5-4812DF-E CC1R5-4812DR-E -
3W
5V 0.8A CC3-0503SF-E CC3-0503SR-E CC3-0503SS-E 0.6A CC3-0505SF-E CC3-0505SR-E CC3-0505SS-E 0.25A (0.2A) CC3-0512SF-E CC3-0512SR-E CC3-0512SS-E 0.125A (0.1A) CC3-0512DF-E CC3-0512DR-E CC3-0512DS-E12V 0.8A CC3-1203SF-E CC3-1203SR-E CC3-1203SS-E 0.6A CC3-1205SF-E CC3-1205SR-E CC3-1205SS-E 0.25A (0.2A) CC3-1212SF-E CC3-1212SR-E CC3-1212SS-E 0.125A (0.1A) CC3-1212DF-E CC3-1212DR-E CC3-1212DS-E24V 0.8A CC3-2403SF-E CC3-2403SR-E 0.6A CC3-2405SF-E CC3-2405SR-E CC3-2405SS-E 0.25A (0.2A) CC3-2412SF-E CC3-2412SR-E CC3-2412SS-E 0.125A (0.1A) CC3-2412DF-E CC3-2412DR-E CC3-2412DS-E48V 0.8A CC3-4803SF-E CC3-4803SR-E CC3-4803SS-E 0.6A CC3-4805SF-E CC3-4805SR-E CC3-4805SS-E 0.25A (0.2A) CC3-4812SF-E CC3-4812SR-E 0.125A (0.1A) CC3-4812DF-E CC3-4812DR-E CC3-4812DS-E
6W
5V 1.2A CC6-0503SF-E CC6-0503SR-E - 1A CC6-0505SF-E CC6-0505SR-E - 0.5A (0.4A) CC6-0512SF-E CC6-0512SR-E -
-
0.25A (0.2A) CC6-0512DF-E CC6-0512DR-E -12V 1.2A CC6-1203SF-E CC6-1203SR-E - 1.2A CC6-1205SF-E CC6-1205SR-E - 0.5A (0.4A) CC6-1212SF-E CC6-1212SR-E - 0.25A (0.2A) CC6-1212DF-E CC6-1212DR-E -24V 1.2A CC6-2403SF-E CC6-2403SR-E - 1.2A CC6-2405SF-E CC6-2405SR-E - 0.5A (0.4A) CC6-2412SF-E CC6-2412SR-E - 0.25A (0.2A) CC6-2412DF-E CC6-2412DR-E -48V 1.2A CC6-4803SF-E CC6-4803SR-E - 1.2A CC6-4805SF-E CC6-4805SR-E - 0.5A (0.4A) CC6-4812SF-E CC6-4812SR-E - 0.25A (0.2A) CC6-4812DF-E CC6-4812DR-E -
10W
5V 2.5A CC10-0503SF-E CC10-0503SR-E - 2A CC10-0505SF-E CC10-0505SR-E - 0.8A (0.64A) CC10-0512SF-E CC10-0512SR-E - 0.4A (0.32A) CC10-0512DF-E CC10-0512DR-E -12V 2.5A CC10-1203SF-E CC10-1203SR-E - 2A CC10-1205SF-E CC10-1205SR-E - 1A (0.8A) CC10-1212SF-E CC10-1212SR-E - 0.45A (0.36A) CC10-1212DF-E CC10-1212DR-E -24V 2.5A CC10-2403SF-E CC10-2403SR-E - 2A CC10-2405SF-E CC10-2405SR-E - 1A (0.8A) CC10-2412SF-E CC10-2412SR-E - 0.45A (0.36A) CC10-2412DF-E CC10-2412DR-E -48V 2.5A CC10-4803SF-E CC10-4803SR-E - 2A CC10-4805SF-E CC10-4805SR-E - 1A (0.8A) CC10-4812SF-E CC10-4812SR-E - 0.45A (0.36A) CC10-4812DF-E CC10-4812DR-E -
F: Horizontally-mounted DIP typeR: Horizontally-mounted SMD typeS: Vertically-mounted SIP type
■ Conformity to RoHS Directive
High accuracy of ± 3% in output voltage (10W oflower single output)
(output voltage: ±12V/±15V)
Low Voltage Directive UL62368-1/CSA62368-1
EN62368-1
YEARS
warranty5
-
web190701
・All specifications are subject to change without notice.
2
MODELITEMS/UNITS CC1R5-0503Sx-E CC1R5-0505Sx-E CC1R5-0512Sx-E CC1R5-0512Dx-E
%
° °%
℃℃
% °% °
°± ±
°° °
°
MODELITEMS/UNITS CC1R5-1203Sx-E CC1R5-1205Sx-E CC1R5-1212Sx-E CC1R5-1212Dx-E
%
° °% ±
℃℃
% °% °
°± ±
°° °
°
CC1R5-E
・All specifications are subject to change without notice.
3
MODELITEMS/UNITS CC1R5-2403Sx-E CC1R5-2405Sx-E CC1R5-2412Sx-E CC1R5-2412Dx-E
%
° °%
℃℃
% °% °
°± ±
°° °
°
MODELITEMS/UNITS CC1R5-4803Sx-E CC1R5-4805Sx-E CC1R5-4812Sx-E CC1R5-4812Dx-E
%
° °%
℃℃
% °% °
°± ±
°° °
°
CC1R5-E
・All specifications are subject to change without notice.
4
Recommended measurements for mounting board
Recommended measurements for mounting board
Connection diagramE - x D x x x x - 5 R 1 C CE - x S x x x x - 5 R 1 C C
16.6±0.2
12.71.905 1.905
t=0.3
8.5m
ax.
3.5
( 3.2
2)( 3
.22)
2.54
7.62
16.51
12.7
4.0
45.280.5
45.2
3
a b
2
1
7-0.3 0.6
b a
4
5
7
6
2.7
1.0
2.7
5.35.0a
b
45.280.5
45.2
14.605
7.62
10.1
6
13.0
8
2.92
16.51
2-ø1.5 (land diameter ø2.5)
7-ø1.0 (land diameter ø2.0)
Unit: mmAllowable tolerance is ±0.5 if not specified separately.
16.6±0.2
t=0.38.8
max
.
16.51
4.0
Coplanarity: 0.1 or lower19.81
1.81.8
( 3.2
2)( 3
.22)
2.54
7.62
45.280.5
45.2
3
2
1
4
5
7
67-0.3 0.6
45.280.5
45.2
7.62
10.1
6
( 13.
38)
( 3.2
2)
22.0
3.2 3.215.61.
2
Unit: mmAllowable tolerance is ±0.5 if not specified separately.
1 7
2
3
5
6
4 NC
–Vout
+Vout
TRM
RC
+Vin
–Vin
Terminal connectionsNo.1 +VinNo.2 RCNo.3 –VinNo.4 NCNo.5 –VoutNo.6 TRMNo.7 +Vout
1 7
2
3
5
6
4
COM
–Vout
+Vout
TRM
RC
+Vin
–Vin
Terminal connectionsNo.1 +VinNo.2 RCNo.3 –VinNo.4 –VoutNo.5 Common outNo.6 TRMNo.7 +Vout
Shape/Dimensions
Shape/Dimensions
LoadLoad
Load
Outer shape ofproduct
Outer shape ofproduct
CC1R5-xxxxxF-E (DIP type)
CC1R5-xxxxxR-E (SMD type)
CC1R5-E
a b
Ambient temperature (°C)
Out
put p
ower
(%)
a:0.5m/s(100LFM)b:1m/s(200LFM)
Natural air cooling
-40 -20 0 20 40 60 80 100
100
80
60
40
20
0
Output power derating by ambient temperature (common specification)
1.905
・All specifications are subject to change without notice.
5
MODELITEMS/UNITS CC3-0503Sx-E CC3-0505Sx-E CC3-0512Sx-E CC3-0512Dx-E
%
℃ ℃%
℃℃
% ℃% ℃
°± ±
°° °
°
MODELITEMS/UNITS CC3-1203Sx-E CC3-1205Sx-E CC3-1212Sx-E CC3-1212Dx-E
%
℃ ℃%
℃℃
% °% °
°± ±
°° °
°
CC3-E(DIP/SMD)
・All specifications are subject to change without notice.
6
MODELITEMS/UNITS CC3-2403Sx-E CC3-2405Sx-E CC3-2412Sx-E CC3-2412Dx-E
%
℃ ℃%
℃℃
% °% °
°± ±
°° °
°
MODELITEMS/UNITS CC3-4803Sx-E CC3-4805Sx-E CC3-4812Sx-E CC3-4812Dx-E
%
℃ ℃%
℃℃
% °% °
°± ±
°° °
°
CC3-E(DIP/SMD)
・All specifications are subject to change without notice.
7
a b
Ambient temperature (°C)
Out
put p
ower
(%)
a:0.5m/s(100LFM)b:1m/s(200LFM)
Natural air cooling
-40 -20 0 20 40 60 80 100
100
80
60
40
20
0
Output power derating by ambient temperature (common specification)
Recommended measurements for mounting board
Recommended measurements for mounting board
Connection diagramE - x D x x x x - 3 C CE - x S x x x x - 3 C C
17.78 4 5 . 24 5 . 2
( 3.2
2)( 3
.22)
2.54
7.62
45.280.5
45.2
3
a b
2
1
7-0.3 0.6
ab
4
5
7
6
a
b
8.5m
ax.
3.5
22.86
17.78
16.6±0.2
t=0.3
4.0
45.280.5
45.2
20.32
7.62
10.1
6
13.0
8
2.92
22.86
2-ø1.5 (land diameter ø2.5)
7-ø1.0 (land diameter ø2.0)
Unit: mmAllowable tolerance is ±0.5 if not specified separately.
26.16
8 . 18 . 1
( 3.2
2)( 3
.22)
2.54
7.62
45.280.5
45.2
3
2
1
7-0.3 0.6
4
5
7
6
8.8m
ax.
22.86
16.6±0.2
t=0.3
4.0
Coplanarity: 0.1 or lower
Unit: mmAllowable tolerance is ±0.5 if not specified separately.
45.280.5
45.2
7.62
10.1
6
( 13.
38)
( 3.2
2)
28.4
3.2 22.0 3.2
1.2
1 7
2
3
5
6
4 NC
–Vout
+Vout
TRM
RC
+Vin
–Vin
Terminal connectionsNo.1 +VinNo.2 RCNo.3 –VinNo.4 NCNo.5 –VoutNo.6 TRMNo.7 +Vout
1 7
2
3
5
6
4
COM
–Vout
+Vout
TRM
RC
+Vin
–Vin
Terminal connectionsNo.1 +VinNo.2 RCNo.3 –VinNo.4 –VoutNo.5 Common outNo.6 TRMNo.7 +Vout
Shape/Dimensions
Shape/Dimensions
Outer shape of product
Outer shape of product
LoadLoad
Load
CC3-xxxxxF-E (DIP type)
CC3-xxxxxR-E (SMD type)
CC3-E(DIP/SMD)
2.7
1.0
5.35.0
0.5
2.7
2.54
・All specifications are subject to change without notice.
8
MODELITEMS/UNITS CC3-0503SS-E CC3-0505SS-E CC3-0512SS-E CC3-0512DS-E
%
℃ ℃%
℃℃
% ℃% ℃
°± ±
°° °
°
MODELITEMS/UNITS CC3-1205SS-E CC3-1212SS-E CC3-1212DS-E
%
℃ ℃%
℃℃
% °% °
°± ±
°° °
°
CC3-E(SIP)
・All specifications are subject to change without notice.
9
MODELITEMS/UNITS CC3-2403SS-E CC3-2405SS-E CC3-2412SS-E CC3-2412DS-E
%
℃ ℃%
℃℃
% °% °
°± ±
°° °
°
MODELITEMS/UNITS CC3-4803SS-E CC3-4805SS-E CC3-4812DS-E
%
℃ ℃%
℃℃
% °% °
°± ±
°° °
°
CC3-E(SIP)
・All specifications are subject to change without notice.
10
CC3-xxxxxS-E (SIP type)
CC3-E(SIP)
E - S D x x x x - 3 C CE - S S x x x x - 3 C C
2.47 P P P P 2P P P P 6
3.5
( 0.5
)
4.1
( 0.5
)
17.9
4
17.78 5.01
2.47
22.86t=0.25
a0.
5
P=2.54
9.2
9.2
27.8
a
1 2 3 4 5 7 8 9 10
Internal parts mounting space
17.78
2.47 22.86 2.47
27.8
P P P P 2P
P=2.54
P P P
6.0
9.2
9-ø0.8 (land diameter ø2.0)
2-ø1.5 (land diameter ø2.5)
Unit: mmAllowable tolerance is ±0.5 if not specified separately.
Recommended measurements for mounting board
+V
in
+V
out
TR
M
RC
–Vin
+V
in
–Vou
t
1 2 3 4 5 7 8 9 10
Terminal connectionsNo.1 +VoutNo.2 NCNo.3 NCNo.4 –VoutNo.5 TRMNo.6 NCNo.7 RCNo.8 –VinNo.9 +VinNo.10 +Vin
+V
in
+V
out
CO
M
CO
M
TR
M
RC
–Vou
t
1 2 3 4 5 7 8 9 10
–Vin
+V
inTerminal connectionsNo.1 +VoutNo.2 COMNo.3 COMNo.4 –VoutNo.5 TRMNo.6 NCNo.7 RCNo.8 –VinNo.9 +VinNo.10 +Vin
Shape/Dimensions
Connection diagram
LoadLoad Load
a b
Ambient temperature (°C)
Out
put p
ower
(%)
a:0.5m/s(100LFM)b:1m/s(200LFM)
Natural air cooling
-40 -20 0 20 40 60 80 100
100
80
60
40
20
0
Output power derating by ambient temperature (common specification)
0.51(t=0.3
4
)
・All specifications are subject to change without notice.
11
MODELITEMS/UNITS CC6-0503Sx-E CC6-0505Sx-E CC6-0512Sx-E CC6-0512Dx-E
%
℃ ℃%
℃℃
% ℃% ℃
°± ±
°° °
°
MODELITEMS/UNITS CC6-1203Sx-E CC6-1205Sx-E CC6-1212Sx-E CC6-1212Dx-E
%
℃ ℃%
℃℃
% °% °
°± ±
°° °
°
CC6-E
・All specifications are subject to change without notice.
12
MODELITEMS/UNITS CC6-2403Sx-E CC6-2405Sx-E CC6-2412Sx-E CC6-2412Dx-E
%
℃ ℃%
℃℃
% °% °
°± ±
°° °
°
MODELITEMS/UNITS CC6-4803Sx-E CC6-4805Sx-E CC6-4812Sx-E CC6-4812Dx-E
%
℃ ℃%
℃℃
% °% °
°± ±
°° °
°
CC6-E
・All specifications are subject to change without notice.
13
Recommended measurements for mounting board
Recommended measurements for mounting board
Connection diagramE - x D x x x x - 6 C CE - x S x x x x - 6 C C
8.5m
ax.
3.5
22.86
17.78
21.1±0.2
t=0.3
4.0
4 5 . 24 5 . 2
( 2.9
3)5.
08( 2
.93)
10.1
6
5.08
5.08
5.08
3a b
2
1
7-0.3 0.6
ab
4
5
7
6
b
a
5.08
5.08
5.08
20.32
10.1
6
15.2
4
17.8
7
2.63
22.86
2-ø1.5 (land diameter ø2.5)
7-ø1.0 (land diameter ø2.0)
Unit: mmAllowable tolerance is ±0.5 if not specified separately.
8.8m
ax.
22.86
21.1±0.2
t=0.3
4.0
Coplanarity: 0.1 or lower26.16
8 . 18 . 1
( 2.9
3)( 2
.93)
10.1
65.
08
5.08
5.08
5.08
3
2
1
7-0.3 0.6
4
5
7
6
Unit: mmAllowable tolerance is ±0.5 if not specified separately.
5.08
5.08
10.1
6
15.2
4
( 18.
17)
( 2.9
3)
5.08
28.4
3.2 22.0 3.2
1.2
1 7
2
3
5
6
4 NC
–Vout
+Vout
TRM
RC
+Vin
–Vin
Terminal connectionsNo.1 +VinNo.2 RCNo.3 –VinNo.4 NCNo.5 –VoutNo.6 TRMNo.7 +Vout
1 7
2
3
5
6
4
COM
–Vout
+Vout
TRM
RC
+Vin
–Vin
Terminal connectionsNo.1 +VinNo.2 RCNo.3 –VinNo.4 –VoutNo.5 Common outNo.6 TRMNo.7 +Vout
Shape/Dimensions
Shape/Dimensions
Outer shape of product
Outer shape of product
LoadLoad
Load
CC6-xxxxxF-E (DIP type)
CC6-xxxxxR-E (SMD type)
CC6-E
a b
Ambient temperature (°C)
Out
put p
ower
(%)
a:0.5m/s(100LFM)b:1m/s(200LFM)
Natural air cooling
-40 -20 0 20 40 60 80 100
100
80
60
40
20
0
Output power derating by ambient temperature (common specification)
2.7
2.54
1.0
5.35.0
0.5
2.7
・All specifications are subject to change without notice.
14
MODELITEMS/UNITS CC10-0503Sx-E CC10-0505Sx-E CC10-0512Sx-E CC10-0512Dx-E
%
℃ ℃%
℃℃
% ℃% ℃
°± ±
°° °
°
MODELITEMS/UNITS CC10-1203Sx-E CC10-1205Sx-E CC10-1212Sx-E CC10-1212Dx-E
%
℃ ℃%
℃℃
% °% °
°± ±
°° °
°
CC10-E
・All specifications are subject to change without notice.
15
MODELITEMS/UNITS CC10-2403Sx-E CC10-2405Sx-E CC10-2412Sx-E CC10-2412Dx-E
%
℃ ℃%
℃℃
% °% °
°± ±
°° °
°
MODELITEMS/UNITS CC10-4803Sx-E CC10-4805Sx-E CC10-4812Sx-E CC10-4812Dx-E
%
℃ ℃%
℃℃
% °% °
°± ±
°° °
°
CC10-E
・All specifications are subject to change without notice.
16
Shape/Dimensions
Shape/Dimensions
Recommended measurements for mounting board
Recommended measurements for mounting board
Connection diagramE - x D x x x x - 0 1 C CE - x S x x x x - 0 1 C C
8.5m
ax.
3.5
35.56
25.4
22.6±0.2
t=0.3
4.0
25.4 8 0 . 58 0 . 5
( 3.6
8)( 3
.68)
5.08
10.1
6
80.580.5
80.5
3
2
1
7-0.3 0.6
4
5
7
6
a
b
b
a
30.48
3.38
18.6
2 10.1
6
15.2
4
80.580.5
80.5
2-ø1.5 (land diameter ø2.5)
7-ø1.0 (land diameter ø2.0)
35.56
Unit: mmAllowable tolerance is ±0.5 if not specified separately.
35.56
22.6±0.2
t=0.3
4.0
38.86
8 . 18 . 1
( 3.6
8)( 3
.68)
5.08
10.1
6
80.580.5
80.5
8.8m
ax.
3
2
1
7-0.3 0.6
4
5
7
6
80.580.5
80.5
1.2
( 3.6
8)
( 18.
92)
10.1
6
15.2
4
41.0
3.2 34.6 3.2
Unit: mmAllowable tolerance is ±0.5 if not specified separately.
1 7
2
3
5
6
4 NC
–Vout
+Vout
TRM
RC
+Vin
–Vin
Terminal connectionsNo.1 +VinNo.2 RCNo.3 –VinNo.4 NCNo.5 –VoutNo.6 TRMNo.7 +Vout
1 7
2
3
5
6
4
COM
–Vout
+Vout
TRM
RC
+Vin
–Vin
Terminal connectionsNo.1 +VinNo.2 RCNo.3 –VinNo.4 –VoutNo.5 Common outNo.6 TRMNo.7 +Vout
Coplanarity: 0.1 or lower
Outer shape of product
LoadLoad
Load
Outer shape of product
CC10-xxxxxF-E (DIP type)
CC10-xxxxxR-E (SMD type)
CC10-E
a b
Ambient temperature (°C)
Out
put p
ower
(%)
a:0.5m/s(100LFM)b:1m/s(200LFM)
Natural air cooling
-40 -20 0 20 40 60 80 100
100
80
60
40
20
0
Output power derating by ambient temperature (common specification)
5.08
a
b
2.7
2.7
1.0
0.5
3.5
0.5
CC-E
・All specifications are subject to change without notice.
17
1. Remote On/Off terminal (RC)
Open collector is recommended as the connection system. Consult us for use with other systems.Use a transistor with "VCE: Vin or over" and "Ic: 1mA or over".Output is switched off by setting the RC terminal open, and switched on by setting the RC terminal to LOW (0-0.4V).
RCcontrolsignal
+Vin +Vout
–Vin –Vout
RC
Load
When not using this function (always on), short-circuit be-tween RC terminal and -Vin terminal.
+Vin +Vout
–Vin –Vout
RC
When notusing thisfunction (always on)
Load
1-2. Output voltage adjusting ter-minal (TRM)
Output voltage can be set to the values shown in the figure below by connecting the TRM terminal to the -Vout termi-nal.
.nepo ot lanim ret MRT eht tes ,noitcnuf siht gnisu ton nehWNote that when the output voltage is set high by this func-tion, derating of output current is necessary according to the maximum power.
DIP/SMDmodels
To be replaced with 1R5(1.5W), 3(3W), 6(6W), or 10(10W) for actual model names.
Model name Open Connection to -Vout Fig.CC –xx03Sx–E 3.3V 3.6V 1CC –xx05Sx–E 5V 6V 1CC –xx12Sx–E 12V 15V 1CC –xx12Dx–E ±12V ±15V 2
Fig.1
Fig.2
+Vin +Vout
TRM
–Vin –Vout
+Vin
–Vin –Vout
TRM
+Vout3.3V5V12V
3.6V6V15V
+Vin +Vout
TRM
COM
–Vin –Vout
+Vin
–Vin –Vout
+Vout
Load
Load
Load
LoadTRM
COM
+12V
–12V
+15V
–15V
Load
Load
SIPmodelsModel name Model name Connection to -Vout Fig.CC3–xx03SS–E 3.3V 3.67V 3CC3–xx05SS–E 5V 6V 3CC3–xx12SS–E 12V 15V 3CC3–xx12DS–E ±12V ±15V 4
Fig.3
Fig.4
+V
in
+V
out
TR
M
–Vin
–Vou
t
Load Load
+V
in
+V
out
TR
M
–Vin
–Vou
t
3.3V, 5V, V 7 6 . 3V 2 1 , 6V, 15V
+V
in
+V
out
TR
M
–Vin
–Vou
t
Load Load
CO
M
+V
in
+V
out
TR
M
–Vin
–Vou
t
Load Load
CO
M
+12V –12V +15V –15V
1. Control functions/Protection functions/Connections
CC-E
・All specifications are subject to change without notice.
18
24V single output by making the COM terminal and TRM terminal open. And output voltage can be set to 30V single output by making the COM terminal open and connecting the TRM terminal to the -Vout terminal.
modelsModel name COM terminal TRM terminal Single output Fig.
* To be replaced with 1R5(1.5W), 3(3W), 6(6W), or 10(10W) for actual model names.
Open OpenOpen Connection to -Vout
6 . g i F5 . g i F
+Vin
–Vin –Vout
+Vout
TRM
COM
24V+Vin
–Vin –Vout
+Vout
TRM
COM
30V
Load
Load
modelsTRM terminal Single output Fig.Model name COM terminal
Open OpenOpen Connection to -Vout
8 . g i F7 . g i F
+V
in
+V
out
TR
M
–Vin
–Vou
t
Load
CO
M
24V
+V
in
+V
out
TR
M
–Vin
–Vou
t
Load
CO
M
30V
1-3. Output voltage adjusting func-tion (adding external resistance)
Output voltage can be varied in the range shown in the fig-ure below by connecting a resistance (Ra, Rb) between the TRM terminal and the -Vout terminal or between the TRM terminal and +Vout terminal.Note that when the output voltage is set high, derating of output current is necessary according to the maximum power.
models
to totototo
tototo
Model name Fig. Fig.Connection between -Vout and Ra
Connection between +Vout and Rb
* To be replaced with 1R5(1.5W), 3(3W), 6(6W), or 10(10W) for actual model names.
Calculating output voltage Vout (V) from connected resis-tance Ra, Rb (kΩ)
Adding a resistance Ra between TRM terminal and -Vout terminal, to set the output voltage high
*1 Vout = 3.3 + 9.59/(32+Ra)*2 Vout = 5.01 + 17.64/(17.8+Ra)*3 Vout = 12.01 + 50.53/(16.9+Ra)*4 Vout = 12.02 + 53.55/(18+Ra)
Adding a resistance Rb between TRM terminal and +Vout terminal, to set the output voltage low
*5 Vout = 3.3 - 15.53/(39.6+Rb) [Rb ≧ 62]*6 Vout = 5.01 - 52.55/(31.8+Rb) [Rb ≧ 160]*7 Vout = 12.01 - 431.1/(57+Rb) [Rb ≧ 620]*8 Vout = 12.02 - 968.5/(103+Rb) [Rb ≧ 1500]
Calculating connected resistance Ra, Rb (kΩ) from set out-put voltage Vout (V)
Adding a resistance Ra between TRM terminal and -Vout terminal, to set the output voltage high
*1 Ra = 9.59/(Vout-3.3) - 32*2 Ra = 17.64/(Vout-5.01) - 17.8*3 Ra = 50.53/(Vout-12.01) - 16.9*4 Ra = 53.55/(Vout-12.02) - 18
Adding a resistance Rb between TRM terminal and +Vout terminal, to set the output voltage low
*5 Rb = 15.53/(3.3-Vout) - 39.6*6 Rb = 52.55/(5.01-Vout) - 31.8*7 Rb = 431.1/(12.01-Vout) - 57*8 Rb = 968.5/(12.02-Vout) - 103
0 1 . g i F9 . g i F
2 1 . g i F1 1 . g i F
Ra
–Vout
TRM
+Vout3.3~3.6V5~6V12~15V
Rb
–Vout
TRM
+Vout3.15~3.3V4.75~5V11.4~12V
Ra–Vout
TRM
+Vout
COM
Load
Load
+12~+15V
–12~–15V
Rb
–Vout
TRM
+Vout
COM
Load
Load
+11.4~+12V
–11.4~–12V
*1, *2, *3
*4
*5, *6, *7
*8
Load
Load
models
Model name Fig. Fig.Connection between -Vout and Ra
Connection between +Vout and Rb
* To be replaced with 1R5(1.5W), 3(3W), 6(6W), or 10(10W) for actual model names.
to totototo
tototo
Calculating output voltage Vout (V) from connected resis-tance Ra, Rb (kΩ)
Adding a resistance Ra between TRM terminal and -Vout terminal, to set the output voltage high
*1 Vout = 3.3 + 1.04/(2.83+Ra)*2 Vout = 5 + 12.75/(12.69+Ra)*3 Vout = 12 + 48.4/(16.18+Ra)*4 Vout = 12 + 54.7/(18+Ra)
Adding a resistance Rb between TRM terminal and +Vout terminal, to set the output voltage low
*5 Vout = 3.3 - 1.69/(3.66+Rb) [Rb ≧ 7.6]*6 Vout = 5 - 12.78/(17.79+Rb) [Rb ≧ 33.3]*7 Vout = 12 - 184.1/(35.54+Rb) [Rb ≧ 271.3]*8 Vout = 12 -470.3/(61.75+Rb) [Rb ≧ 722.1]
For the ±12V output model,
CC-E
・All specifications are subject to change without notice.
19
Calculating connected resistance Ra, Rb (kΩ) from set out-put voltage Vout (V)
Adding a resistance Ra between TRM terminal and -Vout terminal, to set the output voltage high
*1 Ra = 1.04/(Vout-3.3) - 2.83*2 Ra = 12.75/(Vout-5) - 12.69*3 Ra = 48.4/(Vout-12) - 16.18*4 Ra = 54.7/(Vout-12) - 18
Adding a resistance Rb between TRM terminal and +Vout terminal, to set the output voltage low
*5 Rb = 1.69/(3.3-Vout) - 3.66*6 Rb = 12.78/(5-Vout) - 17.79*7 Rb = 184.1/(12-Vout) - 35.54*8 Rb = 470.3/(12-Vout) - 61.75
4 1 . g i F3 1 . g i F
6 1 . g i F5 1 . g i F
+V
out
TR
M
–Vou
t
LoadRa
3.3~3.67V、5~6V、12~15V Load
Rb
+V
out
TR
M
–Vou
t
3.15~3.3V、4.75~5V、11.4~12V
+V
out
TR
M
–Vou
t
Load Load
CO
M
Ra
+12~+15V –12~–15V
+V
out
TR
M
–Vou
t
Load Load
CO
M
Rb
+11.4~+12V–11.4~–12V
*1, *2, *3 *5, *6, *7
*4 *8
1-4. Over current protectionAn over current protection circuit is incorporated in the model, and if over current occurs, the output voltage is lowered. By removing the over current and shorted condi-tions, the output voltage automatically resumes. Note that if the over current status continues for 30 seconds or over, the internal elements of the converter may be deteriorated or damaged. The current value, from which it is judged as an over current, is not to be lower than the nominal current
1-5. Over voltage protectionAn over voltage protection function is not incorporated in the model. Be careful if an external voltage over the nomi-nal voltage is applied, damage may be caused.
1-6. Low input voltage protectionThis series is equipped with the low input voltage protec-tion in order to prevent malfunction due to low input volt-age. The converter stops operation if the input voltage become lower than the set voltage. The set ranges are shown in the table below.Model name Input voltage range Voltage range set for protection circuit
To be replaced with 1R5(1.5W), 3(3W), 6(6W), or 10(10W) for actual model names.
to totototo
tototo
1-7. Insulation withstand voltageThe insulation withstand voltage between input and output, and between terminal and case, is AC500V.
1-8. Series/Parallel connectionsSeries connection
+Vin +Vout
–Vin –Vout
+Vin +Vout
–Vin –Vout
+Vin +Vout
–Vin –Vout
+Vin +Vout
–Vin –Vout
Load
Load
Parallel connectionParallel connection is not applicable.
Serial connection is applicable by wiring as shown in the figure below (left). If output voltage is not generated by this connection, connect a Schottky barrier diode in which the forward voltage is possibly low.Also note that the Schottky barrier diode should have a reverse voltage that is twice or over the value of the voltage between +Vout and -Vout.And the output current should be the same or lower than the nominal current value, whichever is smaller in the convert-ers.
The above setting value is fixed and cannot be adjusted externally.
value. Due to fold back characteristics of OCP, the outputmay not rise up steady with constant current load or induc-tive load.
CC-E
・All specifications are subject to change without notice.
20
2-1. Output ripple noise measurement methodThe measured value of the converter noise may differ de-pending on the measurement method. Measurement should be conducted in a position close to the output terminal. When connecting a prove, do not allow a loop to be config-ured in order not to pick up flux.As well, note that the spike voltage greatly differs depend-ing on the ripple voltmeter and frequency band of the oscil-loscope.Our noise measurement is conducted by the wiring shown in the figure below and in the frequency band of 50MHz.
+Vin
VinVout
Iin
+Vout
–Vin–Vout
lout
1.5m50Ω coaxial cable
50MHz
0.1μF
A
V
10mm 20mm
50MHz
V
A
Ripplevoltmeteror
End-point: 50Ω+0.1µF
Oscilloscope
Load
2-2. Input ripple noiseThis series is equipped with a built-in capacitor for input.
+Vin +Vout
–Vin –Vout
+Vin +Vout
–Vin –Vout
Load
Load
When the distance to the input of the converter from the input power supply is long, attach a capacitor as close as possible to the input terminal.
+Vin +Vout
–Vin –Vout
Load
When the distance to the input of the converter from the input power supply is long, the impedance of the input line can become high, causing high spike noise.In this case, it is recommended to connect a capacitor as close as possible to the input of the DC-DC converter.
2-3. Output ripple & noiseTo reduce Output ripple & noise, connect a capacitor to the output of the converter. In addition, reduction can be enhanced if a π type filter is incorporated as shown in the figure below. In this case, use of a coil with around 100µH is recommended.
+Vin +Vout
–Vin –Vout
+Vin +Vout
–Vin –Vout
Load
Load
When the distance to the load from the output of the con-verter is long, connect the capacitor as close as possible to the load.To reduce output spike noise, connect a ceramic capacitor with around 1µF to the output of the converter.
+Vin +Vout
–Vin –Vout
1 F
Load
-icapac lanretxe fo yticapaC .4-2tor connected to output
Note that if a capacitor with capacity over the value shown in the table below is connected to the output, or several capacitors with low impedance are connected in parallel, operation of the converter may become unstable.
Model name Electrostatic capacitance (μF) max.
2. Noise reduction methods
However, by connecting a capacitor with around 10µF, input ripple noise and input return noise can be reduced.
CC-E
・All specifications are subject to change without notice.
21
3-1. Soldering conditions●Soldering conditions DIP models / SIP models
Observe the following conditions in soldering board.Solder dip 260°C, 10s max., 1 timeSoldering copper 380°C, 3s max., 1 time/PIN
SMD modelsLead-free soldering / High-temperature reflow process
150 C
180 C
225 C min.
245 C max.
Surface temperature of parts
40 to 100s1 to 3 C/s 1 to 4 C/s
30 20s
1 to 5 C/s
3-2. Cleaning methodBoard cleaning after soldering is not recommended. How-ever, the cleaning fluids and conditions shown in the table below have been tested and proved to have no problem. These fluids and conditions can be used.
Cleaning fluids and test conditionsCleanthrough 750H
(1) Cleaning (shaking) at 60°C for 4 minutes(2) Rinsing (shaking in water) at 60°C for 4 minutes(3) Rinsing (shaking in water) at ordinary temperature - 40°C for 4 minutes(4) Drying at 70°C for 6 minutes
Pine alpha ST100S(1) Cleaning (shaking) at 60°C for 5 minutes(2) Rinsing (shaking in water) at 30°C for 3 minutes(3) Drying at 70°C for 6 minutes
Terpene Cleaner EC-7R(1) Cleaning (shaking) at 60°C for 5 minutes(2) Rinsing (shaking in IPA) at 30°C for 10 minutes(3) Drying at 70°C for 6 minutes
Isopropyl alcohol(1) Ultrasonic waves at 60°C for 1 minute(2) Cool bath cleaning R.T. for 1 minute(3) Vapor cleaning at 83°C for 1 minutes
Asahiklin AK-225AES(1) Ultrasonic waves at 50°C for 2 minutes(2) Cool bath cleaning R.T. for 2 minutes
3. Soldering conditions/Cleaning conditions
2-5. Common mode noiseFor products other than with 10W, capacitors are not con-nected between the primary GND and the secondary GND. To reduce common mode noise, connect a capacitor with around 1000pF between the primary GND and the second-ary GND, as shown in the figure below.In this case, note that if the capacitor that is connected is too large, coupling capacitance between input and output becomes large.Also be careful about the withstand voltage of the capacitor (500V or over is desirable with consideration of the insula-tion withstand voltage).
+Vin +Vout
–Vin –Vout
Load
For products with 10W, capacitors with 1000pF are inter-nally connected between primary and secondary.
2-6. Radiation noiseRadiation noise of the converter can be reduced by con-necting the case terminal to the input or output GND ter-minal. The effectiveness varies depending on the device. Check it on the actual device.Regarding wiring, use GND line and solid pattern for the bottom of the converter as much as possible.- SMD models are not equipped with case terminals.
The reflow must be 1 time only.(Do not reflow with the on-board module on the motherboard underside.)