IntroductionThe STEVAL-IPFC01V1 3 kW interleaved PFC reference design is based on the STNRGPF01 digital controller and includes aseparate power board, control board and programming board. The STNRGPF01 is a digital configurable ASIC developed bySTMicroelectronics, which can drive up to three channels in an interleaved PFC for industrial applications.
The STNRGPF01 digital controller on the control board implements mixed signal (analog/digital) average current mode controlin CCM at fixed frequency. The analog section ensures cycle-by-cycle current regulation, while digital control manages the non-time critical operations. You can use the eDesignSuite software available on the ST website to configure the STNRGPF01 tosatisfy the specifications of each interleaved PFC.
Figure 1. STEVAL-IPFC01V1 3 kW interleaved PFC reference design
How to use the 3 kW three-channel interleaved PFC based on the STNRGPF01 digital controller
UM2520
User manual
UM2520 - Rev 3 - October 2019For further information contact your local STMicroelectronics sales office.
www.st.com
https://www.st.com/en/product/stnrgpf01?ecmp=tt9470_gl_link_feb2019&rt=um&id=UM2520http://www.st.com/edesignsuitehttps://www.st.com/en/product/stnrgpf01?ecmp=tt9470_gl_link_feb2019&rt=um&id=UM2520
1 Safety instructions
Danger:The evaluation board uses voltage levels that can cause serious injury and even death.Do not touch any of the boards immediately after disconnecting the input power supply as thecharged capacitors need time to discharge.Due to the high power density, the board components and the heat sink can become very hot andcause severe burns when touched.
This board is intended for use by skilled technical personnel who are suitably qualified and familiar with theinstallation, use and maintenance of power electronic systems. The same personnel must be aware of and mustapply national accident prevention rules.The electrical installation shall be completed in accordance with the appropriate requirements (e.g., cross-sectional areas of conductors, fusing, and GND connections).
UM2520Safety instructions
UM2520 - Rev 3 page 2/28
2 STEVAL-IPFC01V1 evaluation kit overview
Figure 2. STEVAL-IPFC01V1 block diagram1. I/O measurement signals2. Analog circuitry3. Power stage4. Digital control section with STNRGPF01 digital controller
EMI filter&
rectification
3-channelinterleaved
PFC
Driver Driver Driver
Currentcompensator
Triangularwave
generator
Analogfilter
STNRGPF01
SIN_REF PWM0
flip-flop
SET1 RESET1
OUT_PI[2],[3]
TRIANG_REF
CLOCK
VIN
VDD
VSS
IOUT
VOUT
flip-flop
SET2 RESET2
Load
AuxiliaryPowerSupply
ACinput
DCoutput
PWM0 PWM1 PWM2Itot_fb
1
1
1
1
2
2 2
3 3
3 3 3
3
3
4
4 4
The STEVAL-IPFC01V1 implements mixed signal (analog/digital) control, so the converter can manage a range ofinput and output conditions and still remain highly responsive to fast transients in input signals. The inner currentloop is a hardware analog proportional-integral (PI) compensator that ensures the highest possible bandwidth andcycle-by-cycle sensing and regulation. The outer voltage loop is performed by a digital PI controller with fastdynamic response.
2.1 Features
• Input voltage range: 90 to 265 VAC• Line frequency range: 47 to 63 Hz• Maximum output power: 3 kW at 230 V• Output voltage: 400 V• Power factor: > 0.98 at 20% load• Total Harmonic Distortion:
3 How to use the STEVAL-IPFC01V1 evaluation board
To perform functional and efficiency testing, you need the following equipment:• Programmable AC source with power > 3 kW• DC electronic load/or load resistor > 3 kW• Power analyzer• Digital oscilloscope
The STEVAL-IPFC01V1 board can be tested at up to 3 kW at 230 VRMS and 1.5 kW at 115 VRMS, in a frequencyrange between 47 and 63 Hz.
Note: Any load or passive oscilloscope probe must be isolated from the input source for the PFC.
3.1 How to connect and start the STEVAL-IPFC01P1 power board
Step 1. Insert the STEVAL-IPFC01C1 control board in connector J301 on the STEVAL-IPFC01P1 power board.
Figure 3. STEVAL-IPFC01C1 insertion in STEVAL-IPFC01P1 J301 connector
J301Step 2. Connect a 230 V/50 Hz or 115 V/60 Hz AC source to the J2 connector on the STEVAL-IPFC01P1
power board.
Figure 4. STEVAL-IPFC01V1 AC source connection
GND
AC IN
UM2520How to use the STEVAL-IPFC01V1 evaluation board
UM2520 - Rev 3 page 4/28
Step 3. Connect the load wires to the J1 output terminals on the STEVAL-IPFC01P1 power board.The actual load (electronic dc load, load resistors, inverter, etc.) must remain disconnected until thesoft startup sequence has completed.The correct polarity is indicated on the board.
Figure 5. STEVAL- IPFC01V1 DC output connection
GND+400V
Step 4. Supply one of the following input voltage and frequency ranges while no load is connected on theoutput:– 185 – 265 VAC at 47 - 53 Hz– 90 – 140 VAC at 57 – 63 Hz
Step 5. Wait for the green LED D2 on the STEVAL-IPFC01C1 control board to light up.The LED indicates that the startup sequence has finished.
Step 6. Connect the load.Do not connect the load before the green LED indicates that the board is ready or you may damage theboard.
3.1.1 STEVAL-IPFC01P1 power board startup sequence1. The appropriate AC input voltage is applied under a no load condition.
– 185 – 265 VAC at 47 - 53 Hz– 90 – 140 VAC at 57 – 63 Hz)
2. When the input voltage rises above 60 V, the auxiliary power supply starts and generates the auxiliaryvoltages (15 VDC and 5 VDC) for the drivers and the signal conditioning circuitry.
3. Once the auxiliary voltages are nominal, the inrush current limiter phase begins by charging the outputcapacitor until the DC voltage reaches the peak input voltage. The charge current is limited by resistor R101.
UM2520How to connect and start the STEVAL-IPFC01P1 power board
UM2520 - Rev 3 page 5/28
Figure 6. STEVAL-IPFC01V1 DC input connection
1nF
0
100 nF
R112
AC-IN-L1
VIN
1
3
47k
4
L100
AC-IN-L2
2.2nF
R104470k
250Vac-16A
2F100
N.M.
R102
-+
3
33k - 1206D103
20A
470k
GF1M
A1
33k - 1206
R113
VDD
N.M.S14K275
R109
2
ZVD
R105
3
123
C102
R108
R111D104
R106
GF1M
A
100n
F
V_INPUT
33k
15V
1
2
2
5
TLP385
50A
A2
2.2nF
D102
Y100
R114
150
D101
1
3k 0.1%
C100
C101
R101
1
10M
10M
7 8
RV100
3
RL100
3
VIN
2x 4.5 mH
2
Y101
Q100
D100
GF1M
6
0
14
STS6NF20V
ISO100
4
11
470k
STPS1L30A
J100
11
100k - 1206
R110
4
RELAY
122
4R100 22
33k - 1206
R103470k
R107
1. The STNRGPF01 then checks for any output current flow:– If there is no current, the STNRGPF01 closes the contacts of a mechanical relay in parallel with
resistor R101.– If any current is detected, the STNRGPF01 will keep the relay contacts on R101 open (so the board
cannot start) until the current falls to zero.2. After the inrush limiter phase, the soft startup is activated and the output voltage rises up to 436 VDC, at
which point the PFC enters burst mode to regulate the output voltage between 416 and 436 VDC.3. The green LED D2 on the control board indicates that the sequence has finished and the PFC is ready for
the load to be connected:– the output voltage is regulated to 400 V ±2 V.– for 185 – 265 V 50 Hz mains, the maximum output power is 3000 W– for 90 – 140 V 60 Hz mains, the maximum output power is 1500 W
Warning:If the load is connected before the Inrush current limiter phase, a very high current will flow intothe PFC and possibly damage the board when the relay closes the contacts across resistor R101.
UM2520How to connect and start the STEVAL-IPFC01P1 power board
UM2520 - Rev 3 page 6/28
4 PFC controller customization with eDesign Suite
The eDesignSuite suite software tool developed by STMicroelectronics helps you configure ST products powerconversion applications. You can use it to customize the PFC controller for a specific application: you start byentering the main specifications for your design and then generate an automatic design or follow a sequentialprocess to build a highly customized design.
Figure 7. PFC specifications
UM2520PFC controller customization with eDesign Suite
UM2520 - Rev 3 page 7/28
http://www.st.com/edesignsuite
Figure 8. PFC step-by-step design
RELATED LINKS See RM0446 for details on how to use eDesignSuite to generate specialized firmware
UM2520PFC controller customization with eDesign Suite
UM2520 - Rev 3 page 8/28
https://www.st.com/en/product/stnrgpf01
5 Status LEDs and fault conditions
The STEVAL-IPFC01C1 control board has a green LED and a red LED connected to STNRGPF01 pin 15(PFC_OK) and pin 14 (PFC_FAULT), respectively.
5.1 Normal operation
During normal operation, the green LED (D1) on the STEVAL-IPFC01C1 control board remains lit to indicate thatthe PFC is operating under allowable conditions.
5.2 Fault conditions
When a fault is detected, the red LED (D2) on the STEVAL-IPFC01C1 control board is lit and the green LED (D1)is switched off. The device stops all switching activities and turns off the fan.After a fault condition, the board must be reset by switching off the AC input voltage and discharging the outputcapacitors.
Warning:Do not short the output terminals to discharge the capacitors as the high discharge current maydamage the output current sensing circuitry.
The following conditions will trigger fault protection:• Frequency or voltage out of range or highly irregular input voltage waveforms that inhibit frequency
measurement. For example, if the input voltage is 230 Vrms but the mains frequency is 60 Hz, or if the inputvoltage is 115 Vrms and the mains frequency is 50 Hz.
• Overcurrent condition on at least one PFC channel. This protection prevents PFC inductor saturation.• Overvoltage protection on output voltage if the output voltage exceeds 450 VDC• Overvoltage protection on input voltage:
– for 115 V nominal supply: above 140 V– for 230 V nominal supply: above 265 V
• Over-temperature protection when the ambient temperature of the board exceeds the threshold setting.
5.3 Wait conditions
The following conditions are signaled when both the green LED (D1) and the red LED (D2) on the STEVAL-IPFC01C1 control board switched off:• Undervoltage condition on the output when the DC bus voltage falls below 340 V.• Undervoltage condition on input when the input rms voltage falls below 90 V at 60 Hz or 185 V at 50 Hz.• Input voltage dropout when the input voltage signal disappears for more than 25 ms.
Under these conditions, the STNRGPF01 will drive both LEDs on the control board off and will wait until theconditions have cleared before repeating the startup sequence.
UM2520Status LEDs and fault conditions
UM2520 - Rev 3 page 9/28
6 STEVAL-IPFC01P1 power board schematics
Figure 9. STEVAL-IPFC01P1 schematic - input section
1nF
0
100 nF
R112
AC-IN-L1
VIN
1
3
47k
4
L100
AC-IN-L2
2.2nF
R104470k
250Vac-16A
2F100
N.M.
R102
-+
3
33k - 1206D103
20A
470k
GF1M
A1
33k - 1206
R113
VDD
N.M.S14K275
R109
2
ZVD
R105
3
123
C102
R108
R111D104
R106
GF1M
A
100n
F
V_INPUT
33k
15V
1
2
2
5
TLP385
50A
A2
2.2nF
D102
Y100
R114
150
D101
1
3k 0.1%
C100
C101
R101
1
10M
10M
7 8
RV100
3
RL100
3
VIN
2x 4.5 mH
2
Y101
Q100
D100
GF1M
6
0
14
STS6NF20V
ISO100
4
11
470k
STPS1L30A
J100
11
100k - 1206
R110
4
RELAY
122
4R100 22
33k - 1206
R103470k
R107
UM
2520 - Rev 3
page 10/28
UM
2520STEVA
L-IPFC01P1 pow
er board schematics
Figure 10. STEVAL-IPFC01P1 schematic - auxiliary power supply
14D
RAI
N2
13
34
7C
OM
P
C207
1
3.3kC200
SRC
2
C206
7GND4
R206
L4931ABD50-TR
2GND1
1VOUT
33k
87
R208 4.7nF
R205
+400V
NC4
SM6T220A
C210
INHIBIT
6GND3 GND2
L2004.7µH
R207
C204
12k
D201 STPS2150A
D200
4G
ND
TMMBAT46
C209
C201
24k
100
C208
1nF
+
+
470µF
24k
470µF
470nF
VDD
+
L201
ALTAIR05T-800
C203
15V
C205
3
470µF
U200
4.7µF
U201
D204
6
15D
RAI
N3
SRC
12
2.2mH
6V
DR
AIN
4
5IR
EF
5
10
VIN8
D202
VDD
3
470nF
5
2.7470nF
4.7µF
16
DR
AIN
1
1
C202STTH1L06A
R203
R202
+
FB6
R204 2.7
D203 STPS1L30A
10µF
R200
UM
2520 - Rev 3
page 11/28
UM
2520STEVA
L-IPFC01P1 pow
er board schematics
Figure 11. STEVAL-IPFC01P1 schematic - boost interleaving section
C310
STW40N60M2
2 STPS1L30A
OC
P_EN
D313
37
PWM0
31
R302
C339
R365 D319
1nF
2
R316 10
U301
17
-
+
9
R311
CS2
OUT1
8EN2 2.2k 0.1%
R32015V
5
VDD
4.7k
10m
+
Vcc6
CS1
3
CON40A
I_LOAD
A
J300
2.2k 0.1%
C324
OUT1EN2
8
5OUT2
62k 0.1%
U307
PWM1
100nF
R345
470k
3
470k
100pF
TS3011ILT
R361VBUS
100pF
L300INDUCTOR
U302
-
+
VDD
9
1-
+
35
28
FAN2
I_0
1
15V
1
100nF
I_2
10k
PWM2
C307
2.2k 0.1%
D316
U308
21
4PWM0
L301INDUCTOR
STS6NF20V
6
5
D314
I_inOCP1
10m
GND2
1uF
PWM2
6.8k
R353 6.8k
R307
82k 0.1%
5
4
10nF
STPSC12065
D304
TSV911ILT
14
8
2.2k 0.1%
STLM20W87F
2k
100nF
0
2PWM1
STPS1L30A
R362
10k 0.1%R308
5
STPS1L30A
D310
100nF
R309
C304
62k 0.1%
1kR369
470uF
1
STPS1L30A
100nF
R325
R339
V_INPUT
I_in
R315 10
R305
VBUS
30m
C326
100nF
23
R317 10
-
+U305
+ COMP MMBT6429LT1G
33
10k
C308
10nF
10
100pF
R351
GND2
VDD
STPS1L30A
R340
VDD
38
30
Q302
C319
I_1
3
100nF
100pF
15V
62k 0.1%
R330
C317
1819
40
R367 100
C313
R333
Q304
4
D301
R357 470
10k
PWM25
OUT2
39
R335
10k
5
C300
R314 33
C329
4
2
+
15
R356
10k
FAN
3.3k 0.1%
R331
2
D318
D306
47kD312
2STW40N60M2
15V
0
CS0
11k
510
5
27
VDD
36
100nF
I_1
BAT46JFILM
Y300
C336
OCP1
ZVD
5
4
Q301
VDD
R338
2
C331
VDD
2
100pF
R312
2.2k 0.1%
D302
STPS1L30A
D300
-
+
1
STPS1L30A
R303
VBUS
10
R360 22
62k 0.1%
R358
C301
1
0.56uF
R346
1
1
7
20
33R313
NC1
33k
GND3
R336
22
R355
2.2k 0.1%
R328
PWM
1
10nF
J301
2.2k 0.1%
C306
RELAY
STPS1L30A
R344
2.2k 0.1%
R318
R341
100nF
R332
10nF
I_LOADOUT2
Vcc6
2
R300
C322
1EN1
R334
10m
C311D311
0
Q303
FAN
R366
A
C318
4PWM2
VIN
R343
33
100pF
I_0
150pF
+C302
TSV911ILT2
D309
3
470uF
C328
R350
3
6Vcc
510
3
100
TEMP
VOUT VCC 4
150pF
R323
4m
12
7 8
STPS1L30A 4PWM2
C335
62k 0.1%
C334
4TSV911ILT
16
62k 0.1%
R337
PM8834
OCP1
100pF
R310
3
R370
470k
R348
2.2k 0.1%
R329
STPSC12065
D305
VDD
100
150pF
RELAYTEMP
3
C340
R363
10nF
1k
C333
U304
26
I_2
+ COMP
STW40N60M2
R304
2
+ COMP
L302INDUCTOR
C337
100
VOUT
1
3
OC
P_EN
2.2k 0.1%
R321
VDD
C305
32
4
TSV911ILT
100
PWM
2
A
470uF
9
R359
2
10nF
R354 330k
15V
+
C320
10k 0.1%
5
100nF
U309
4
VDD
10
OUT1EN2
8
CS1
U306
D317
STPS1L30A
1k
4
STPS1L30A
R326
2
TSV911ILT
I_LOAD
0
7
10nF
-
+U303 3
FAN
15V
1
R364
2
7 EN11
C309
PM8834 PM8834R319
100
VDD
3.3nF
STPS1L30A
R342
VDD
C323
4
STPSC12065
D315
C303470uF
D308
4
2
OC
P_EN
100
29
C316
100nF
4
Q300
C332
1
C338
PWM1GND
3
C330
10 9
CS2
6
TEMP
5
R306
7
OCP_EN
3
CS0
D303
510
11
STPS1L30A
PWM1GND
3U300
R349 3.3k
R347
STPS1L30A
R327
C312
13
EN11
100
STPS1L30A
D307
1
VDD
I_in
R324
82k 0.1%
R301
ZVD
15V
100
100
STPS1L30A
C325
10nF
R368
100
1nF
12
25PW
M0
C327
R322
3
+400V
R352
+ COMP5
PWM0
VIN
34
24
UM
2520 - Rev 3
page 12/28
UM
2520STEVA
L-IPFC01P1 pow
er board schematics
7 STEVAL-IPFC01C1 control board schematic
Figure 12. STEVAL-IPFC01C1 schematic
C12
10k 0.1%
PWM1
8
I_LOAD
VIN
C31
R17
34
26 29
VDD
R19
20
100nF
23
R242.4k
11
R26U4
C1
SET2
+
SET219
VDD
RED LED
PWM2
VOUTVDDRELAY
C6
35
22
2.2nF
R37
33
VDD
2
10k
VDD
U2D
VDDA
RESET2
RESn
N.M.
VDD
R23
N.M.
PWM0
PWM0
C32
1
RED LED
SET1 R6
PFC_OK
CCO_clk
15nF
C38
R9
74HC132
VDD
100nF
22k
FAN
2
I_in1
8
SET1
1µF
REF SIN
ENABLE
R18 7
5
C13
3
VDD
14
C37
11
RED
PWM[0]
FAN
7
13
C28
O+in
U1
16
7
100pF
25
47µF
VDD
OUT_PI[2]
10
C10
150pF
5
ZVD
10k
C27
OUT_PI
REF SIN
14
RTX_RX
VDD
SWIM
VDD
O-in
100nF
1
PIN29
34
VDD
10k
R14
WE-CBF
21
TSV911ILT 10k
10k
VSSA
12
RESET2
PTX
3
2
VCOUTSYNCR[1] 6
OCP1
74HC132
10nF
100nF
I_in2
VDD
22k
C33
FAN
VBUS
4
R38 100k
21
36
20
OUT_PI[3]
1125
A
14
R27
100
31
CON4
U2C
VIN
VDD
CCO_clk
1.5nF
PWM1
1
12
C34
56k
+
R10
TRIANG REF
TEMPPTX_TX
26
100pF
RESET1
14PFC_FAULT
OCP
N.M.
VIN
OCP1
n.c.
C11
14
C30
150pF
10nF
100
R21R28
220nF
4
A
TRIANG_REF
A
R31
2LMV358IDT 4
3
R29 0
3.3k
37
A
6.2k
35
12
R25 220K
30
31VIN
9
U2B
+
U5A
RESET1
150pF
R8
R16
C16
GREEN LED
VSS
10k
J1
R7
100pF
100
9
VDD
A
16 SIN_REFSET2
C23
12
12
4.7µF10V
C2
15nF
U5B
VDD
7
7
14
C17
8
R11
CLOCK
GREEN LED
RESET2
C4I_0
D2
C36
27
14
I_1
O+in
100nF
R39 100k
TEMP
C15
100nF
C8
A
3
A
R[1]
R[3]
23
RELAY
VDD
37
PRX
34
7
220nF
100pF
6
10nF
5
TRIANG REF
R35 3.3k
SET1
OCP[0]
2
910
6
R15
12
OCP1
74HC132
U2A
C29 100pF
R12
220nF
15
1k
38
100nF
A
10
74HC132
VDD
A
-
I_LOAD
R33
R[2]
100pF
33pF
56k
14
TEMP
NC[1]ZVD
32
+
8
I_in1
9
RTX_RX
VDD
1
R22
4
VDD
R40 100k
C7
R30
VDD
R4
74HC132
35
10nF
RELAY
C9
2.2k
18
10nF
N.M.
NC[2]
PWM0
74HC132
R2
PWM0
C39
7
FAN
10nF
CCO_clk
-
1k
36
C40
ZVD
D1
0
I_in2
A
28
10k
C3
27
VDD
38
2
74HC1327
C21
13
39
-
VDD
+
3
4
1nF
100pF
C26
40
GREEN
74HC132
IOUT
10pF
TEMP
I_2
1
24
R36
VDD
10k 0.1%
VDD
8
A
8
NRST
J3
A
13
I_2
7.5k
6
C24
C14
OCP[1]28
13
5.1k
C19
32
PTX_TX
7
100
R34
330pF
CON40AOUT_PI
17
4
PWM0
22
220nFU3B
34
33pF
30
U3C
A
5
R1
R[4]
10
U3D
STNRGPF01
U3A
R32
ZVD
14
VBUS
6
R20
I_1
11
L1
C5
15
100nF
18
C35
I_LOAD
RELAY
7
J2
4
LMV358IDT
33
14
C22
29
C18
PWM2
R13
15k
19
C25
7
PWM2
VBUS
17
24
C20
I_0
PROGRAMMING PORT
SYNCR[2]
RESET1
1
5
UM
2520 - Rev 3
page 13/28
UM
2520STEVA
L-IPFC01C
1 control board schematic
8 STEVAL-IPFC01A1 adapter board schematic
Figure 13. STEVAL-IPFC01A1 schematic
J
2
YELL
OW
R4031k
LED
1
RED
YELL
OW
401
Q400
470k
J400
RED
R401 330
4 3 2 1
BLAC
K
MMBT2222ALT1G
R402
1 2 3 4 5 6
8 7 6 5
D400
CON4CON6
GR
EEN
BRO
WN
3
OR
ANG
E
OR
ANG
E
UM
2520 - Rev 3
page 14/28
UM
2520STEVA
L-IPFC01A
1 adapter board schematic
9 STEVAL-IPFC01V1 3 kW interleaved PFC bill of materials
Table 1. STEVAL-IPFC01V1 bill of materials
Item Q.ty Ref. Part / Value Description Manufacturer Order code
1 1 - STEVAL-IPFC01P1 Power board ST not available separately
2 1 - STEVAL-IPFC01C1 Control board ST not available separately
3 1 - STEVAL-IPFC01A1 adapter board ST not available separately
9.1 STEVAL-IPFC01P1 power board bill of materials
Table 2. STEVAL-IPFC01P1 bill of materials
Item Q.ty Ref. Part / Value Description Manufacturer Order code
1 1 C100 100nF, 275Vac,±20%
POLYPROPILENEFILM CAP, throughhole lead spacing15mm
PANASONIC ECQUAAF104MA
2 1 C101 100nF, 50V,±10% 0603 ANY ANY
3 1 C102 1nF, 500Vdc,±20%
Ceramic disc cap,through hole leadspacing 7.5mm
VISHAY BCCOMPONENTS VY1102M35Y5UG63V0
4 3 C200, C204,C208470nF, 50V,±20%
X7R CeramicCapacitor, 0805 TDK CGA4J3X7R1H474M125AE
5 3 C201, C202,C203470µF, 25V,±20%
Electrolyticcapacitor +105°, TH8mm diameter,3.5mm lead spacing
ANY ANY
6 1 C205 10µF, 25V,±20%
Electrolyticcapacitor +105°,through hole leadspacing 2.5mm
ANY ANY
7 2 C206, C207 4.7µF, 50V,±10%Ceramic Capacitor,1210 MULTICOMP MULTICOMP
8 1 C209 4.7nF, 50V,±10%X7R CeramicCapacitor, 0603 ANY ANY
9 2 C210, C340 1nF, 50V, ±10% X7R CeramicCapacitor, 0603 ANY ANY
10 4 C300, C301,C302, C303470µF, 450V,±20%
Electrolyticcapacitor +105°,through hole leadspacing 10mm
Nichicon LGL2W471MELC35
11 1 C304 0.56µF, 450V,±10%
POLYPROPILENEFILM CAP, throughhole lead spacing22.5mm
EPCOS B32673P6564K000
12 1 C305 1µF, 520V,±10%
POLYPROPILENEFILM CAP, throughhole lead spacing22.5mm
EPCOS B32673Z5105K000
UM2520Bill of materials
UM2520 - Rev 3 page 15/28
Item Q.ty Ref. Part / Value Description Manufacturer Order code
13 11
C306, C328,C329, C330,C334, C307,C323, C324,C325, C332,C339
10nF, 50V,±10%
X7R CeramicCapacitor, 0603 ANY ANY
14 3 C308, C309,C310100pF, 630 Vdc,±5%
POLYPROPILENEFILM CAP, throughhole lead spacing5mm
KEMET PFR5101J630J11L4BULK
15 4 C311, C312,C313, C326100pF, 50V,±5%
COG CeramicCapacitor, 0603 ANY ANY
16 11
C316, C317,C319, C322,C331, C335,C336, C337,C338, C318,C320
100nF, 50V,±10%
X7R CeramicCapacitor, 0603 ANY ANY
17 1 C327 3.3nF, 50V, ±5% C0G CeramicCapacitor, 0603 ANY ANY
18 3 C328, C329,C330150 pF, 50V,±5%
C0G CeramicCapacitor, 0603 ANY ANY
19 1 C333 1nF, 50V, ±5% C0G CeramicCapacitor, 0603 ANY ANY
20 18
D100, D203,D303, D304,D305, D306,D307, D308,D309, D310,D311, D312,D313, D314,D316, D317,D318, D319
30V, 1A Power schottkydiode, SMA ST STPS1L30A
21 1 D101 50A, 1000V, 50A Single Phase BridgeRectifier, GBJHY ElectronicCorp GBJ5010
22 3 D102, D103,D104GF1M, 1000V,1A
General PurposeRectifier Diode,SMA
ONSemiconductor GF1M
23 1 D200 220V TRANSIL, SMB ST SM6T220A
24 1 D201 150V, 2A Power schottkydiode, SMA ST STPS2150A
25 1 D202 1000V, 1ATurbo 2 ultrafasthigh voltagerectifier, SMA
ST STTH1L06A
26 1 D204 100V, 150mASmall signalSchottky diode,SMD Minimelf
ST TMMBAT46FILM
27 3 D300, D301,D302 600V, 12ASilicon carbide highvoltage rectifier,TO220AC
ST STPSC12065D
28 1 D315 100V, 150mASmall signalSchottky diode,SOD-323
ST BAT46JFILM
29 1 F100 20A, 250Vac,20A, 0%
Cylindrical FuseClass gG/gL andaM, SMD 10x3 mm
Bel Fuse Inc. SMM 20
UM2520Bill of materials
UM2520 - Rev 3 page 16/28
https://www.st.com/en/product/stps1l30?ecmp=tt9470_gl_link_feb2019&rt=um&id=UM2520https://www.st.com/en/product/sm6t?ecmp=tt9470_gl_link_feb2019&rt=um&id=UM2520https://www.st.com/en/product/stps2150?ecmp=tt9470_gl_link_feb2019&rt=um&id=UM2520https://www.st.com/en/product/stth1l06?ecmp=tt9470_gl_link_feb2019&rt=um&id=UM2520https://www.st.com/en/product/tmmbat46?ecmp=tt9470_gl_link_feb2019&rt=um&id=UM2520https://www.st.com/en/product/stpsc12065?ecmp=tt9470_gl_link_feb2019&rt=um&id=UM2520https://www.st.com/en/product/bat46?ecmp=tt9470_gl_link_feb2019&rt=um&id=UM2520
Item Q.ty Ref. Part / Value Description Manufacturer Order code
30 1 ISO100 80V, 50mA , 0% Optocoupler, SMD Toshiba TLP385
31 1 J100 VIN, 630V,17.5A
PCB terminal block,through hole leadspacing 7.5mm
Phoenix Contact 1717033
32 1 J300 VOUT, 300Vac,25A
PCB terminal block,through hole leadspacing 7.62mm
RS Pro 790-1130
33 1 J301 CON40A,550Vca, 6.9A
PCB terminal blockfemale, through holelead spacing 2.54mm
Samtec ESQ12037GD
34 1 L1002x 4.5 mH,250V, 18A,±20%
Common ModePower Line Choke,through hole
WURTHELEKTRONIK 7448051804
35 1 L200 4.7uH, 1.7A,±20%SMD Inductor, SMD4.5x4mm
NICCOMPONENTS NPI43C4R7MTRF
36 1 L201 2.2mH, 0.47A,±10%
Switch ModeTransformer,through hole
AQ Magnetica
OR
Würth Elektronik
2198.0037
OR
750 318 675
37 3 L300, L301,L302 ±10%Power inductor,through hole PQ32
AQ Magnetica
OR
Würth Elektronik
2083.0011
OR
750316867
38 2 Q100, Q304 18V, 1AN-channel 20 V,Power MOSFET,SO8
ST STS6NF20V
39 3 Q300, Q301,Q302 600V, 40AMDmesh II Plus™low Qg, TO-247 ST STW40N60M2
40 1 Q303 45V, 200 mABJT NPN smallsignal transistor,SOT-23
ONSemiconductor MMBT6429LT1G
41 1 RL100 250Vac-16A,250V, 16A, 0%RELAY SPST,through hole
SCHRACK - TECONNECTIVITY RT314018
42 1 RV100 S14K275,275Vac, ±10%
METAL OXIDEVARISTORS,through hole leadspacing 6mm
EPCOS B72214S0271K101
43 2 R100, R360 22, 200V, ±1% Metal film resistor,1206 ANY ANY
44 1 R101 150, 350V, ±5%High power ceramicresistors, throughhole
TE Connectivity SQMW5150RJ
45 4 R102, R203,R362 33k, 50V, ±1%Metal film resistor,0603 ANY ANY
46 7
R103, R104,R112, R113,R301, R304,R308
470k, 200V,±1%
Metal film resistor,1206 ANY ANY
47 3 R105, R108,R109 33k, 200V, ±1%Metal film resistor,1206 ANY ANY
48 1 R106 100k, 200V,±1%Metal film resistor,1206 ANY ANY
UM2520Bill of materials
UM2520 - Rev 3 page 17/28
https://www.st.com/en/product/sts6nf20v?ecmp=tt9470_gl_link_feb2019&rt=um&id=UM2520https://www.st.com/en/product/stw40n60m2?ecmp=tt9470_gl_link_feb2019&rt=um&id=UM2520
Item Q.ty Ref. Part / Value Description Manufacturer Order code
49 2 R107, R111 10M, 50V, ±1% Metal film resistor,0603 ANY ANY
50 1 R110 47k, 50V, ±1% Metal film resistor,0603 ANY ANY
51 1 R114 3k ±0.1%, 50V,0%Metal film resistor,0603 ANY ANY
52 1 R200 3.3k, 200V, ±1% Metal film resistor,1206 ANY ANY
53 1 R202 100, 200V, ±1% Metal film resistor,1206 ANY ANY
54 1 R204 12k, 50V, ±1% Metal film resistor,0603 ANY ANY
55 1 R205 24k, 50V, ±1% Metal film resistor,0603 ANY ANY
56 2 R206, R207 2.7, 200V, ±1%Professional MELFResistors, MELF0204
Vishay MMA02040C2708FB300
57 1 R208 24k, 50V, ±1% Metal film resistor,0603 ANY ANY
58 1 R300 30m, ±1%
Ultra PrecisionCurrent SensingChip Resistor, SMD4527
StackpoleElectronics Inc. CSS4527FT30L0
59 11
R302, R303,R332, R334,R336, R339,R341, R343,R351, R352,R367
100, 50V, ±1% Metal film resistor,0603 ANY ANY
60 3 R305, R306,R307 510, 50V, ±1%Metal film resistor,0603 ANY ANY
61 10
R309, R310,R333, R335,R337, R340,R342, R344,R356, R358
2.2k ±0.1%,75V, 0%
Metal film resistor,0603 ANY ANY
62 2 R311, R325 10k ±0.1%, 50V,0%Metal film resistor,0603 ANY ANY
63 3 R312, R313,R314 33, 200V, ±1%High Power ThickFilm Resistor, 1206 ANY ANY
64 2 R315, R316 10, 200V, ±1% High Power ThickFilm Resistor, 1206 ANY ANY
65 1 R317 10, 200V, ±1% High Power ThickFilm Resistor, 1206 ANY ANY
65 3 R318, R322,R320 10k, 200V, ±1%High Power ThickFilm Resistor, 1206 ANY ANY
67 3 R319, R321,R323 10m, ±1%Wirewound Res.,Precision, SMD2512
OHMITE MCS3264R010FER
68 1 R324 3.3k ±0.1%,75V, 0%Metal film resistor,0603 ANY ANY
69 1 R326 4m, ±1% Metal film resistor,SMD 3921 Vishay WSLP39214L000FEA
UM2520Bill of materials
UM2520 - Rev 3 page 18/28
Item Q.ty Ref. Part / Value Description Manufacturer Order code
70 6R327, R328,R329, R346,R347, R348
62k ±0.1%, 75V,0%
Metal film resistor,0603 ANY ANY
71 2 R330, R353 6.8k, 50V, ±1% Metal film resistor,0603 ANY ANY
72 1 R331 2k, 50V, ±1% Metal film resistor,0603 ANY ANY
73 1 R338 4.7k, 50V, ±1% Metal film resistor,0603 ANY ANY
74 1 R345 47k, 50V, ±1% Metal film resistor,0603 ANY ANY
75 1 R349 3.3k, 50V, ±1% Metal film resistor,0603 ANY ANY
76 1 R350 10k, 50V, ±1% Metal film resistor,0603 ANY ANY
77 1 R354 330k, 50V, ±1% Metal film resistor,0603 ANY ANY
78 2 R355, R359 82k ±0.1%, 75V,0%Metal film resistor,0603 ANY ANY
79 1 R357 470, 50V, ±1% Metal film resistor,0603 ANY ANY
80 1 R361 11k, 50V, ±1% Metal film resistor,0603 ANY ANY
81 1 R363 10k, 50V, ±1% Metal film resistor,0603 ANY ANY
82 3 R364, R365,R366 0, 200V, ±1%Metal film resistor,1206 ANY ANY
83 3 R368, R369,R370 1k, 50V, ±1%Metal film resistor,0603 ANY ANY
84 1 U200 5V, 0.25AVery low dropvoltage regulatorswith inhibit, SO8
ST L4931ABD50, TR
85 1 U201 900VOff-line all-primary-sensing switchingregulator, SO16N
ST ALTAIR05T, 800
86 5U300, U301,U302, U303,U305
-rail to rail input/output 5V CMOSOp-Amp, SOT23-5L
ST TSV911ILT
87 1 U304 -Rail-to-rail high-speed comparator,SOT23-5L
ST TS3011ILT
88 1 U306 5V
Ultra-low current 2.4V precision analogtemperature sensor,SOT323-5L
ST STLM20W87F
89 3 U307, U308,U309 18V, 4A4 A dual low sideMOSFET driver,SO8
ST PM8834TR
90 2 Y100, Y101 2.2nF, 250V,±20%
Ceramic disc cap, TH lead spac. 7.5mm
MURATA DE2E3KH222MA3B
UM2520Bill of materials
UM2520 - Rev 3 page 19/28
https://www.st.com/en/product/l4931?ecmp=tt9470_gl_link_feb2019&rt=um&id=UM2520https://www.st.com/en/product/altair05t-800?ecmp=tt9470_gl_link_feb2019&rt=um&id=UM2520https://www.st.com/en/product/tsv911?ecmp=tt9470_gl_link_feb2019&rt=um&id=UM2520https://www.st.com/en/product/ts3011?ecmp=tt9470_gl_link_feb2019&rt=um&id=UM2520https://www.st.com/en/product/stlm20?ecmp=tt9470_gl_link_feb2019&rt=um&id=UM2520https://www.st.com/en/product/pm8834?ecmp=tt9470_gl_link_feb2019&rt=um&id=UM2520
Item Q.ty Ref. Part / Value Description Manufacturer Order code
91 1 Y300 FAN2, 12V,0.25A
DC Axial Fan,through hole40X40X20
ARX FD1240-A0241D0AL
92 1 HEATSINK -HEATSINK 220mm,standard finishingsize length: 220 mm
PADA 8411
93 1 PLEXIGLASSSPACER -PLEXIGLASSSPACER, DIM:240X40x3mm
ANY ANY
94 6 SPACER - Nylon spacer 10mmM3 - -
95 6 NUT - Nylon NUT M3 - -
96 3 INSULATOR KIT1 -INSULATOR KITTO-220 MULTICOMP MK3306/S
97 3 INSULATOR KIT2 -INSULATORTO-247 - -
98 2 Screw M3 - M3 steel screws -10 mm length - -
99 7 Screw M2.5 - M2.5 steel screws -20 mm length - -
100 7 NUT - M2.5 STEEL NUT - -
101 7 Plain Washer - M2.5 Steel PlainWasher - -
9.2 STEVAL-IPFC01C1 control board bill of materials
Table 3. STEVAL-IPFC01C1 bill of materials
Item Q.ty Ref. Part / Value Description Manufacturer Order code
1 1 C1 4.7µF, 0805, 16V, 10 %X7R CeramicCapacitor ANY ANY
2 2 C2, C5 100nF, 0603, 50V, 10 %X7R CeramicCapacitor ANY ANY
3 4 C3, C4, C15,C1710nF, 0603, 50V, 10 %
X7R CeramicCapacitor ANY ANY
4 1 C6 47µF, 1206, 6.3V, 20 %Polarized tantalumchip capacitor AVX TAJA476K006RNJ
5 1 C7 1µF, 0603, 25 V,10 %X7R CeramicCapacitor ANY ANY
6 6 C8, C21, C22,C25, C26, C27100pF, 0603, 25V, 10 %
X7R CeramicCapacitor ANY ANY
7 3 C9, C19, C20 150pF, 0603, 25V, 5 %C0G CeramicCapacitor ANY ANY
8 2 C10, C37 33pF, 0603, 50V, 5 %C0G CeramicCapacitor ANY ANY
9 1 C11 100nF, 0603, 50V, 10 %X7R CeramicCapacitor ANY ANY
10 1 C12 15nF, 0603, 50V, 10 %X7R CeramicCapacitor ANY ANY
11 4 C13, C38, C39,C40220nF, 0603, 50V, 10 %
X7R CeramicCapacitor ANY ANY
UM2520Bill of materials
UM2520 - Rev 3 page 20/28
Item Q.ty Ref. Part / Value Description Manufacturer Order code
12 2 C14, C16 100nF, 0603, 25V, 10 %X7R CeramicCapacitor ANY ANY
13 3 C18, C24, C32 100nF, 0603, 50V, 10 %X7R CeramicCapacitor ANY ANY
14 2 C23, C33 10nF, 0603, 25V, 10 %X7R CeramicCapacitor ANY ANY
15 1 C28 1.5nF, 0603, 25V, 10 %X7R CeramicCapacitor ANY ANY
16 1 C29 100pF, 0603, 25V, 5 %COG CeramicCapacitor ANY ANY
17 1 C30 10pF, 0603, 50V, 5 %COG CeramicCapacitor ANY ANY
18 1 C31 15nF, 0603, 50V, 10 %X7R CeramicCapacitor ANY ANY
19 1 C34 1nF, 0603, 25 V,10 %X7R CeramicCapacitor ANY ANY
20 1 C35 2.2nF, 0603, 25V, 10 %C0G CeramicCapacitor ANY ANY
21 1 C36 330pF, 0603, 50V, 5 %COG CeramicCapacitor ANY ANY
22 1 D1 RED, 0805, N.A.%,
High efficiency reddiffused LED 2mA3mm
Kingbright KP-2012SRC-PRV
23 1 D2 GREEN, 0805,N.A. %,
High efficiencygreen diffused LED2mA 3mm
Kingbright KPHCM-2012CGCK
24 1 J1 CON40A, /, / V, /%,
Right angleconnector 2 ways2.54mm
Stelvio Kontek 4.74975E+12
25 1 J2 SWIM I/F, generic male stripline connector ANY ANY
26 1 J3 CON4, generic male stripline connector ANY ANY
27 1 L1 WE-CBF, SMD Inductor, 0603 Wurth Elektronik 74279262
28 2 R1, R2 1k, 50 V, 1 % Metal film resistor,0603 ANY ANY
29 3 R4, R7, R36 10k, 50 V, 1 % Metal film resistor,0603 ANY ANY
30 2 R6, R35 3.3k, 50 V, 1 % Metal film resisto,0603r ANY ANY
31 3 R8, R9, R32 10k, 50 V, 1 % Metal film resistor,0603 ANY ANY
32 4 R10, R11, R16,R17 100, 50 V, 1 %Metal film resistor,0603 ANY ANY
33 4 R12, R13, R18,R19 N.M., 50 V, 1 %Metal film resistor,0603 ANY ANY
34 2 R14, R15 10k, 50 V, 0.1%,Metal film resistor,0603 ANY ANY
35 2 R20, R30 22k, 50 V, 1 % Metal film resistor,0603 ANY ANY
UM2520Bill of materials
UM2520 - Rev 3 page 21/28
Item Q.ty Ref. Part / Value Description Manufacturer Order code
36 1 R21 10k, 50 V, 1 % Metal film resistor,0603 ANY ANY
37 1 R22 2.2k, 50 V, 1 % Metal film resistor,0603 ANY ANY
38 1 R23 7.5k, 50 V, 1 % Metal film resistor,0603 ANY ANY
39 1 R24 2.4k, 50 V, 1 % Metal film resistor,0603 ANY ANY
40 1 R25 220K, 50 V, 1 % Metal film resistor,0603 ANY ANY
41 2 R26, R27 56k, 50 V, 1 % Metal film resistor,0603 ANY ANY
42 1 R28 6.2k, 50 V, 1 % Metal film resistor,0603 ANY ANY
43 2 R29, R31 0, 50 V, 1 % Metal film resistor,0603 ANY ANY
44 1 R33 N.M., 50 V, 1 % Metal film resistor,0603 ANY ANY
45 1 R34 15k, 50 V, 1 % Metal film resistor,0603 ANY ANY
46 1 R37 5.1k, 50 V, 1 % Metal film resistor,0603 ANY ANY
47 3 R38, R39, R40 100k, 50 V, 1 % Metal film resistor,0603 ANY ANY
48 1 U1 -
Three-channelinterleaved CCMPFC digitalcontroller, TSSOP38
ST STNRGPF01
49 2 U2,U3 -Quad 2-InputSchmitt NANDGate, SO14
ST M74HC132YRM13TR
50 1 U4 -rail to rail input/output 5V CMOSOp-Amp, SOT23-5L
ST TSV911ILT
51 1 U5 -Low power rail-to-rail input/output op-amp, SO8
ST LMV358IDT
9.3 STEVAL-IPFC01A1 adapter board bill of materials
Table 4. STEVAL-IPFC01A1 bill of materials
Item Q.ty Ref. Part / Value Description Manufacturer Order code
1 1 D400 LEDHigh Efficiency RedLED 3mm, throughhole
Kingbright L-7104ID
2 1 J400 CON4
4-contact 2.54mmfemale SIL Board-to-board Socket,through hole
HARWIN M20-7890446
UM2520Bill of materials
UM2520 - Rev 3 page 22/28
https://www.st.com/en/product/stnrgpf01?ecmp=tt9470_gl_link_feb2019&rt=um&id=UM2520https://www.st.com/en/product/M74HC132?ecmp=tt9470_gl_link_feb2019&rt=um&id=UM2520https://www.st.com/en/product/tsv911?ecmp=tt9470_gl_link_feb2019&rt=um&id=UM2520https://www.st.com/en/product/lmv358?ecmp=tt9470_gl_link_feb2019&rt=um&id=UM2520
Item Q.ty Ref. Part / Value Description Manufacturer Order code
3 1 J401 CON6
Right angle maleconnector 1 way 6circuits 2.54mm,through hole
ANY ANY
4 1 Q400 40 V, 0.6 AGeneral PurposeTransistors, NPNSilicon
ONSemiconductor SMMBT2222ALT1G
5 1 R401 330 Metal film resistor,0805 ANY ANY
6 1 R402 470k Metal film resistor,0805 ANY ANY
7 1 R403 1K Metal film resistor,0805 ANY ANY
UM2520Bill of materials
UM2520 - Rev 3 page 23/28
Revision history
Table 5. Document revision history
Date Version Changes
18-Dec-2018 1 Initial release.
09-Sep-2019 2
Throughout document: minor text edits
Updated Figure 10. STEVAL-IPFC01P1 schematic - auxiliary power supply
Updated Table 2. STEVAL-IPFC01P1 bill of materials
11-Oct-2019 3 Updated Table 2. STEVAL-IPFC01P1 bill of materials
UM2520
UM2520 - Rev 3 page 24/28
Contents
1 Safety instructions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .2
2 STEVAL-IPFC01V1 evaluation kit overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .3
2.1 Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
3 How to use the STEVAL-IPFC01V1 evaluation board. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .4
3.1 How to connect and start the STEVAL-IPFC01P1 power board . . . . . . . . . . . . . . . . . . . . . . . . 4
3.1.1 STEVAL-IPFC01P1 power board startup sequence . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
4 PFC controller customization with eDesign Suite. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .7
5 Status LEDs and fault conditions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9
5.1 Normal operation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
5.2 Fault conditions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
5.3 Wait conditions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
6 STEVAL-IPFC01P1 power board schematics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .10
7 STEVAL-IPFC01C1 control board schematic. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .13
8 STEVAL-IPFC01A1 adapter board schematic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .14
9 STEVAL-IPFC01V1 3 kW interleaved PFC bill of materials. . . . . . . . . . . . . . . . . . . . . . . . . .15
9.1 STEVAL-IPFC01P1 power board bill of materials . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15
9.2 STEVAL-IPFC01C1 control board bill of materials . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20
9.3 STEVAL-IPFC01A1 adapter board bill of materials. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22
Revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .24
UM2520Contents
UM2520 - Rev 3 page 25/28
List of figuresFigure 1. STEVAL-IPFC01V1 3 kW interleaved PFC reference design. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1Figure 2. STEVAL-IPFC01V1 block diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3Figure 3. STEVAL-IPFC01C1 insertion in STEVAL-IPFC01P1 J301 connector . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4Figure 4. STEVAL-IPFC01V1 AC source connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4Figure 5. STEVAL- IPFC01V1 DC output connection. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5Figure 6. STEVAL-IPFC01V1 DC input connection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6Figure 7. PFC specifications . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7Figure 8. PFC step-by-step design . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8Figure 9. STEVAL-IPFC01P1 schematic - input section . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10Figure 10. STEVAL-IPFC01P1 schematic - auxiliary power supply . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11Figure 11. STEVAL-IPFC01P1 schematic - boost interleaving section . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12Figure 12. STEVAL-IPFC01C1 schematic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13Figure 13. STEVAL-IPFC01A1 schematic . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
UM2520List of figures
UM2520 - Rev 3 page 26/28
List of tablesTable 1. STEVAL-IPFC01V1 bill of materials . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15Table 2. STEVAL-IPFC01P1 bill of materials . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15Table 3. STEVAL-IPFC01C1 bill of materials . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20Table 4. STEVAL-IPFC01A1 bill of materials . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22Table 5. Document revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 24
UM2520List of tables
UM2520 - Rev 3 page 27/28
IMPORTANT NOTICE – PLEASE READ CAREFULLY
STMicroelectronics NV and its subsidiaries (“ST”) reserve the right to make changes, corrections, enhancements, modifications, and improvements to STproducts and/or to this document at any time without notice. Purchasers should obtain the latest relevant information on ST products before placing orders. STproducts are sold pursuant to ST’s terms and conditions of sale in place at the time of order acknowledgement.
Purchasers are solely responsible for the choice, selection, and use of ST products and ST assumes no liability for application assistance or the design ofPurchasers’ products.
No license, express or implied, to any intellectual property right is granted by ST herein.
Resale of ST products with provisions different from the information set forth herein shall void any warranty granted by ST for such product.
ST and the ST logo are trademarks of ST. For additional information about ST trademarks, please refer to www.st.com/trademarks. All other product or servicenames are the property of their respective owners.
Information in this document supersedes and replaces information previously supplied in any prior versions of this document.
© 2019 STMicroelectronics – All rights reserved
UM2520
UM2520 - Rev 3 page 28/28
http://www.st.com/trademarks
Introduction1 Safety instructions2 STEVAL-IPFC01V1 evaluation kit overview2.1 Features
3 How to use the STEVAL-IPFC01V1 evaluation board3.1 How to connect and start the STEVAL-IPFC01P1 power board3.1.1 STEVAL-IPFC01P1 power board startup sequence
4 PFC controller customization with eDesign Suite5 Status LEDs and fault conditions5.1 Normal operation5.2 Fault conditions5.3 Wait conditions
6 STEVAL-IPFC01P1 power board schematics7 STEVAL-IPFC01C1 control board schematic8 STEVAL-IPFC01A1 adapter board schematic9 STEVAL-IPFC01V1 3 kW interleaved PFC bill of materials9.1 STEVAL-IPFC01P1 power board bill of materials9.2 STEVAL-IPFC01C1 control board bill of materials9.3 STEVAL-IPFC01A1 adapter board bill of materials
Revision history