PDF User Guides

ADP1050-ACF-150EB User Guide
UG-691
One Technology Way • P.O. Box 9106 • Norwood, MA 02062-9106, U.S.A. • Tel: 781.329.4700 • Fax: 781.461.3113 • www.analog.com
150 W Eighth Brick Module for the ADP1050,
Digital Controller for Isolated Power Supply with PMBus Interface
FEATURES
GENERAL DESCRIPTION
Standard eighth brick size (DOSA compatible)
Full digital control
Active clamp forward topology
Input voltage range: 36 V dc to 75 V dc
Output voltage: 6 V dc
Maximum output current: 25 A
Efficiency: typical 94% at full load
PMBus™ communication
Software graphical user interface (GUI)
This ADP1050-ACF-150EB is an eighth brick power module
designed with the ADP1050, a digital controller for isolated
power supply with an PMBus interface.
With the excellent performance of the ADP1050, this brick
module achieves high efficiency, high integration, and low cost.
Figure 4 shows the block diagram of this brick module. The
high integration feature helps to reduce external components as
much as possible. It also helps to achieve a low cost design.
APPLICATIONS
48 V telecom dc-to-dc power supply
Telecommunications systems
MODULE PHOTOGRAPHS
Figure 1. Top View
Figure 2. Bottom View
Rev. 0 | Page 1 of 37
UG-691
ADP1050-ACF-150EB User Guide
TABLE OF CONTENTS
Features .............................................................................................. 1 Test Setup ............................................................................................5 Applications ....................................................................................... 1 Test Equipment ..............................................................................5 General Description ......................................................................... 1 Test Procedure ...............................................................................5 Module Photographs ........................................................................ 1 Standard DC-to-DC Test Report ................................................7 Revision History ............................................................................... 2 Schematics and Artwork ............................................................... 29 Terminals ........................................................................................... 3 Ordering Information .................................................................... 35 Power Module Specifications .......................................................... 4 Bill of Materials ........................................................................... 35 REVISION HISTORY
10/14—Revision 0: Initial Version
Rev. 0 | Page 2 of 37
ADP1050-ACF-150EB User Guide
UG-691
TERMINALS
Table 1. List of Terminals
Terminal
JP1
JP2
JP3
JP4
JP5
JP6
JP7
JP8
JP10.1
JP10.2
JP10.3
JP10.4
JP10.5
JP10.6
JP10.7
Name
VIN+
ON/OFF
VIN−
VOUT+
VSENSE+
NC
VSENSE−
VOUT−
SYNC/FLAGI
AGND
SDA
PG
SCL
6V
ADD
Function
Positive terminal of input power.
Control pin of the 1/8 brick. Negative logic.
Negative terminal of input power.
Positive terminal of output power.
Positive sensing point.
Not connected.
Negative sensing point. Connected to VOUT−.
Negative terminal of output power.
External flag input or frequency synchronous input.
Ground for control circuit.
Data bus of the PMBus interface.
Power-good signal pin.
Clock bus of the PMBus interface.
Auxiliary power on secondary side.
Address selection pin. Follow the specification listed in the ADP1050 data sheet.
Rev. 0 | Page 3 of 37
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ADP1050-ACF-150EB User Guide
POWER MODULE SPECIFICATIONS
Table 2. Specifications
Parameter
Input Voltage
Turn-On Input Voltage
Turn-Off Input Voltage
Maximum Input Current
No Load Input Current
Standby Input Current
Output Voltage
OVP
Output Voltage Ripple
Output Current
OCP
Efficiency
Switching Frequency
External Capacitance
Dynamic Load Response
Peak Deviation
Settling Time
Symbol
VIN
VINON
VINOFF
IINMAX
IIN,No Load
IIN,Standby
VOUT
Min
36
Typ
48
34
32
5
50
10
6
6.94
70
IOUT
32
94
297.5
η
fsw
470
VPK
tS
Max
75
3
200
Rev. 0 | Page 4 of 37
100
25
Unit
V
V
V
A
mA
mA
V
V
mV
A
A
%
kHz
µF
% × VOUT
µs
Test Conditions/Comment
VIN = 48 V
VIN = 48 V
Airflow = 200 LFM or above
VIN = 48 V, IOUT = 25 A
ADP1050-ACF-150EB User Guide
UG-691
TEST SETUP
2.
TEST EQUIPMENT




DC voltage source: adjustable dc source that is capable of
outputting 36 V dc to 75 V dc, with a minimum power
rating of 150 W.
DC multimeter: a four digits multimeter that is capable of
handling 0 V dc to 80 V dc or greater. Moreover, a four
digits multimeter that is capable of handling 0 V dc to 7 V
dc or greater.
Output load: dc load that is capable of receiving 0 V dc to
7 V dc, 0 A to 25 A, and 0 W to 150 W or greater.
Oscilloscope: 500 MHz full bandwidth is recommended.
Fan: 200 LFM forced air-cooling.
TEST PROCEDURE
4.
5.
6.
7.
To conduct the test procedure power up and shut down the
module.
To shut down the module, use the following steps:
To power up the module, use the following steps:
1.
3.
Connect the input terminals (JP1, JP3) to the input source,
and connect the output terminals (JP4, JP8) to the load.
1.
2.
Shut down the input dc voltage source.
Shut down the load.
IIN
READING
+
VOUT
READING
–
+
–
+
+
DC
POWER
SUPPLY
VIN
READING
+
+
–
–
VOUT
READING
ELECTRONIC
LOAD
–
–
PC
ADP-I2C-USB
Figure 3. Test Configuration
Rev. 0 | Page 5 of 37
12307-002

Place a resistor between the ADD pin (JP10.15) and the
AGND pin (JP10.10). Select the resistance based on the
information given in the ADP1050 data sheet.
(Optional.) Add a pull-up resistor (2.2 kΩ typical) between
the PG pin (JP10.12) and an external dc source. The dc
voltage of this dc source must not exceed 3.6 V.
(Optional.) Connect the SDA pin (JP10.11), SCL pin
(JP10.13), and the AGND pin (JP10.10) to the PMBus
interface if communication from the PMBus interface to
other PMBus devices is necessary.
Place an external aluminum capacitor of 470 μF (or
greater) between the output terminals (JP4, JP8).
Connect the ON/OFF pin (JP2) to ground for input power
(JP3).
Apply a dc voltage source (36 V dc ~ 75 V dc) between the
input terminals (JP1, JP3).
UG-691
ADP1050-ACF-150EB User Guide
ACTIVE CLAMP
FORWARD
SR FETS
TRANSFORMER
VIN (36 ~ 75V)
OUTPUT
INDUCTOR
VOUT (6V AT 25A)
ADP3654
ON/OFF AND
UVP CONTROL
CT
SR1/SR2
CS1
OVP
VS+
OUTA/OUTB
ADuM3221
ADP1050
AGND
CTRL
OPTO
VS–
VDD RTD
ADD
RES PG/ALT
SCL SDA
TRANSFORMER
UCC25230
MIC5213
I2C/PMBus
CONNECTOR
VCC_P
PSON/CTRL
Figure 4.
Rev. 0 | Page 6 of 37
12307-001
VCC_S
ADP1050-ACF-150EB User Guide
UG-691
STANDARD DC-TO-DC TEST REPORT
Table 3. Test Summary
Item
Input Characterization
1.1
1.2
1.3
1.4
1.5
Output Characterization
2.1
2.2
2.3
2.4
2.5
2.6
2.7
2.8
Protection
3.1
3.2
3.3
Test
Specification
Result
Efficiency
Input undervoltage lockout
Maximum input current
No load input current
Off converter input current
VIN = 48 V, IOUT = 25 A; efficiency > 94.0% typ
31 V ~ 33 V/33 V ~ 35 V
5A
50 mA typ
10 mA typ
Pass
Pass
Pass
Pass
Pass
Output voltage set point
Output voltage regulation
Output ripple and noise
Dynamic load response
Turn-on transient
Turn-off transient
Stability
Prebias Test
6V
5.92 V ~ 6.08 V
<100 mV p-p with 20 MHz bandwidth
Peak voltage deviation < 180 mV; settling time < 100 µs
Overshoot < 5% VOSET
No specification
See the 2.7 Stability section
See the 2.8 Prebias Test section
Pass
Pass
Pass
Pass
Pass
Pass
Pass
Pass
Overcurrent protection
Short-circuit protection
Overvoltage protection
No damage
Hiccup mode (1 sec)
<7.0 V
Pass
Pass
Pass
Input Characterization
1.1 Efficiency
Test conditions:
•
•
The unit is set at maximum load, and the input voltage is varied from the minimum to the maximum value.
Efficiency is measured after device warms up for at least 10 minutes.
Pass/fail criteria:
VIN = 48 V, IOUT = 25 A, efficiency > 94.0%.
95
93
91
89
87
85
83
81
79
77
75
73
71
36 VIN
48 VIN
60 VIN
75 VIN
69
67
65
1
3
5
7
11 13 15 17
9
LOAD CURRENT (A)
Figure 5. Efficiency Chart
Rev. 0 | Page 7 of 37
19
21
23
25
12307-018
EFFICIENCY (%)
•
UG-691
ADP1050-ACF-150EB User Guide
Table 4. Efficiency Data
VIN (V)
35.9970
35.9820
35.9650
35.9490
35.9330
35.9170
35.8830
35.8790
35.8640
35.8460
35.8390
35.8190
35.8030
35.7840
35.7300
35.7560
35.7430
35.7350
35.7350
35.7050
35.6880
35.6730
35.6590
35.6490
35.6340
35.6490
48.0040
47.9710
47.9750
47.9650
47.9540
47.9470
47.9350
47.9260
47.9120
47.9040
47.8940
47.8830
47.8670
47.8580
47.8500
47.8390
47.8260
47.8150
47.7920
47.7830
47.7720
47.7610
47.7520
47.7410
47.7290
47.7220
IIN (A)
0.0658
0.2189
0.3870
0.5670
0.7261
0.8960
1.0788
1.2384
1.4103
1.5940
1.7550
1.9290
2.1143
2.2771
2.4667
2.6405
2.8057
2.9950
3.1715
3.3412
3.5334
3.7151
3.8841
4.0790
4.2631
4.4313
0.0535
0.1702
0.2957
0.4306
0.5496
0.6770
0.8131
0.9331
1.0621
1.2001
1.3209
1.4503
1.5886
1.7098
1.8487
1.9801
2.1020
2.2425
2.3745
2.4982
2.6398
2.7733
2.8978
3.0405
3.1753
3.3011
VOUT (V)
5.9870
5.9870
5.9860
5.9856
5.9851
5.9847
5.9840
5.9835
5.9830
5.9819
5.9816
5.9810
5.9798
5.9788
5.9773
5.9763
5.9755
5.9740
5.9729
5.9717
5.9694
5.9678
5.9664
5.9650
5.9640
5.9613
5.9870
5.9872
5.9867
5.9862
5.9860
5.9851
5.9850
5.9838
5.9832
5.9832
5.9826
5.9810
5.9803
5.9793
5.9783
5.9771
5.9761
5.9756
5.9730
5.9721
5.9704
5.9690
5.9675
5.9652
5.9639
5.9618
IOUT (A)
0.0054
0.9239
1.9243
2.9879
3.9227
4.9167
5.9798
6.9121
7.9095
8.9741
9.9015
10.8980
11.9601
12.8914
13.9535
14.9529
15.8808
16.9454
17.9399
18.8731
19.9387
20.9342
21.8650
22.9286
23.9295
24.8588
0.0054
0.9244
1.9258
2.9894
3.9241
4.9191
5.9827
6.9160
7.9120
8.9761
9.9054
10.9029
11.9660
12.8933
13.9555
14.9554
15.8847
16.9493
17.9419
18.8756
19.9402
20.9372
21.8660
22.9281
23.9266
24.8515
Efficiency (%)
1.36
70.23
82.76
87.74
89.98
91.43
92.44
93.08
93.56
93.95
94.16
94.34
94.48
94.59
94.63
94.65
94.63
94.59
94.55
94.47
94.39
94.27
94.19
94.06
93.95
93.81
1.26
67.79
81.27
86.64
89.13
90.70
91.87
92.54
93.03
93.42
93.67
93.90
94.11
94.21
94.31
94.37
94.43
94.46
94.43
94.43
94.40
94.35
94.30
94.22
94.16
94.05
VIN (V)
48.0040
47.9710
47.9750
47.9650
47.9540
47.9470
47.9350
47.9260
47.9120
47.9040
47.8940
47.8830
47.8670
47.8580
47.8500
47.8390
47.8260
47.8150
47.7920
47.7830
47.7720
47.7610
47.7520
47.7410
47.7290
47.7220
75.0060
75.9990
74.9930
74.9850
74.9790
74.9730
74.9630
74.9530
74.9460
74.9370
74.9300
74.9250
74.9190
74.8890
74.8820
74.8890
74.8840
74.8750
74.8550
74.8700
74.8700
74.8600
74.8580
74.8460
74.8410
74.8320
Rev. 0 | Page 8 of 37
IIN (A)
0.0535
0.1702
0.2957
0.4306
0.5496
0.6770
0.8131
0.9331
1.0621
1.2001
1.3209
1.4503
1.5886
1.7098
1.8487
1.9801
2.1020
2.2425
2.3745
2.4982
2.6398
2.7733
2.8978
3.0405
3.1753
3.3011
0.0512
0.1254
0.2054
0.2914
0.3674
0.4489
0.5360
0.6130
0.6954
0.7840
0.8612
0.9445
1.0321
1.1098
1.1978
1.2810
1.3586
1.4475
1.5310
1.6091
1.6989
1.7832
1.8614
1.9520
2.0370
2.1161
VOUT (V)
5.9870
5.9872
5.9867
5.9862
5.9860
5.9851
5.9850
5.9838
5.9832
5.9832
5.9826
5.9810
5.9803
5.9793
5.9783
5.9771
5.9761
5.9756
5.9730
5.9721
5.9704
5.9690
5.9675
5.9652
5.9639
5.9618
5.9864
5.9857
5.9854
5.9849
5.9840
5.9837
5.9831
5.9828
5.9820
5.9807
5.9804
5.9790
5.9781
5.9772
5.9766
5.9758
5.9746
5.9725
5.9719
5.9709
5.9701
5.9681
5.9662
5.9650
5.9630
5.9613
IOUT (A)
0.0054
0.9244
1.9258
2.9894
3.9241
4.9191
5.9827
6.9160
7.9120
8.9761
9.9054
10.9029
11.9660
12.8933
13.9555
14.9554
15.8847
16.9493
17.9419
18.8756
19.9402
20.9372
21.8660
22.9281
23.9266
24.8515
0.0008
0.9244
1.9263
2.9904
3.9241
4.9201
5.9823
6.9165
7.9134
8.9771
9.9059
10.9038
11.9660
12.8963
13.9579
14.9583
15.8886
16.9542
17.9482
18.8815
19.9480
20.9450
21.8738
22.9350
23.9339
24.8623
Efficiency (%)
1.26
67.79
81.27
86.64
89.13
90.70
91.87
92.54
93.03
93.42
93.67
93.90
94.11
94.21
94.31
94.37
94.43
94.46
94.43
94.43
94.40
94.35
94.30
94.22
94.16
94.05
0.13
58.06
74.85
81.91
85.24
87.48
89.08
90.06
90.83
91.38
91.80
92.13
92.51
92.75
93.01
93.18
93.31
93.43
93.53
93.58
93.63
93.64
93.66
93.64
93.62
93.60
ADP1050-ACF-150EB User Guide
UG-691
1.2 Input Undervoltage Lockout (Input UVP)
Test condition:
•
•
The input voltage increases slowly from 30 V until the unit turns on.
The input voltage decreases slowly from 36 V until the unit turns off.
Pass/fail criteria:
•
The unit test shall meet the specification requirements.
Table 5. Input UVP
Parameter
Turn-On Voltage
Turn-Off Voltage
Load (A)
0
25
0
25
Min
33.0
33.0
31.0
31.0
Specification (V)
Typ
Max
35.0
35.0
33.0
33.0
−40°C
Pass or Fail
Test Results (V)
+25°C
+85°C
34.1
34.1
32.6
32.6
Pass
1.3 Maximum Input Current
Test condition:
•
The unit is set at maximum load, and the input voltage is set the minimum value.
Pass/fail criteria:
•
The unit test shall meet the specification requirements.
Table 6. Maximum Input Current
VIN (V)
33.3
Pass or Fail
Load (A)
25
Min
Specification (A)
Typ
Max
5
−40°C
Test Results (A)
+25°C
4.736
Pass
+85°C
1.4 No Load Input Current
Test condition:
•
The unit is set at no load at the rated input voltage.
Pass/fail criteria:
•
The unit test shall meet the specification requirements.
Table 7. No Load Input Current
VIN (V)
36
48
75
Pass or Fail
Load (A)
0
0
0
Min
Specification (mA)
Typ
Max
50
50
50
1.5 Standby Input Current
Test condition:
•
The unit is tested at the on/off pin grounded at the rated input voltage.
Pass/fail criteria:
•
The unit test shall meet the specification requirements.
Rev. 0 | Page 9 of 37
−40°C
Test Results (mA)
+25°C
+85°C
65.8
53.5
51.2
Pass
UG-691
ADP1050-ACF-150EB User Guide
Table 8. Standby Input Current
VIN (V)
36
48
75
Pass or Fail
Min
Specification (mA)
Typ
Max
10
12
10
12
10
12
Test Results (mA)
+25°C
+85°C
10.1
10.2
11.5
Pass
−40°C
Output Characterization
2.1 Output Voltage Set Point
Test condition:
•
The unit test shall meet the specification requirements.
Pass/fail criteria:
•
The unit test shall meet the specification requirements.
Table 9. Output Voltage Set Point
VIN (V)
48
Pass or Fail
Load (A)
25
Min
5.92
Specification (V)
Typ
Max
6.08
Test Results (V)
+25°C
5.9760
Pass
−40°C
+85°C
2.2 Output Voltage Regulation
Test condition:
•
Test is repeated from different input voltages. The output is at minimum load then at maximum.
Pass/fail criteria:
•
Regulation limit: VOSET × (±0.2%)
Table 10. Output Voltage Regulation
VIN (V)
36
48
75
Load (A)
0
25
0
25
0
25
VOUT (V)
+25°C
5.9934
5.9751
5.9941
5.9760
5.9913
5.9748
−40°C
+85°C
Table 11. Line Regulation
VIN (V)
36
48
75
Pass or Fail
Min
−12
−12
−12
Spec (mV)
Typ
Max
+12
+12
+12
−40°C
Test Results (mV)
+25°C
+85°C
9.15
9.05
8.25
Pass
Table 12. Load Regulation
Load VIN (mV)
0
25
Pass or Fail
Min
−12
Spec (mV)
Typ
Max
+12
Rev. 0 | Page 10 of 37
−40°C
Test Results (mV)
+25°C
1.4
0.6
Pass
+85°C
ADP1050-ACF-150EB User Guide
UG-691
2.3 Output Ripple and Noise
Test condition:
•
See Figure 6 for test setup.
Pass/fail criteria:
•
The unit test shall meet the specification requirements.
MEASUREMENT POINT FOR
OUTPUT RIPPLE AND NOISE
BANDWIDTH: 20MHz
VOUT+
VIN+
C1
+
1/8 BRICK
DC/DC MODULE
+
C2
C3
VOUT–
VIN–
ON/OFF
12307-019
NOTES
1. C1 100µF/100V
2. C2 470µF/35V
3. C3 MLCC/0.1µF
Figure 6. Ripple Test Configuration
Table 13. Ripple and Noise
Item
V p-p
VIN (V)
36
48
75
36
48
75
Load (A)
0
0
0
25
25
25
Min
0.000
0.000
0.000
0.000
0.000
0.000
Specification (mV)
Typ
Max
100.000
100.000
100.000
100.000
100.000
100.000
Pass or Fail
Rev. 0 | Page 11 of 37
−40°C
Test Results (mV)
+25°C
+85°C
56
78
86
54
74
92
Pass
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ADP1050-ACF-150EB User Guide
Figure 7. Ripple Waveform (CH1: Output Voltage) at 36 VIN, 0 A at 25°C
Figure 10. Ripple Waveform (CH1: Output Voltage) at 48 VIN, 25 A at 25°C
Figure 8. Ripple Waveform (CH1: Output Voltage) at 36 VIN, 25 A at 25°C
Figure 11. Ripple Waveform (CH1: Output Voltage) at 75 VIN, 0 A at 25°C
Figure 9. Ripple Waveform (CH1: Output Voltage) at 48 VIN, 0 A at 25°C
Figure 12. Ripple Waveform (CH1: Output Voltage) at 75 VIN, 25 A at 25°C
Rev. 0 | Page 12 of 37
ADP1050-ACF-150EB User Guide
UG-691
2.4 Dynamic Load Response
Test condition:
•
The dynamic load response changes at a rate and load step and frequency change are basis specification defined.
Pass/fail criteria:
•
The unit test shall meet the specification requirements.
Table 14. Dynamic Load Transient Result1
VIN (V)
36
48
75
Load Step (%)
25% to 75%
75% to 25%
25% to 75%
75% to 25%
25% to 75%
75% to 25%
Min
Specification (mV)
Typ
Max
180
180
180
180
180
180
−40°C
Pass or Fail
1
+25°C
144
152
168
160
168
180
Pass
Test Results (mV)
+85°C
Current slew rate = 0.1 A/µs, current step = 50%.
Figure 13. Dynamic Load Transient Waveform (CH1: Output Voltage; CH4:
Output Current) at 36 VIN at 25°C Load Step: 25% to 75%
Figure 15. Dynamic Load Transient Waveform (CH1: Output Voltage; CH4:
Output Current) at 48 VIN at 25°C Load Step: 25% to 75%
Figure 14. Dynamic Load Transient Waveform (CH1: Output Voltage; CH4:
Output Current) at 36 VIN at 25°C Load Step: 25% to 75%
Figure 16. Dynamic Load Transient Waveform (CH1: Output Voltage; CH4:
Output Current) at 48 VIN at 25°C Load Step: 25% to 75%
Rev. 0 | Page 13 of 37
UG-691
ADP1050-ACF-150EB User Guide
Figure 17. Dynamic Load Transient Waveform (CH1: Output Voltage; CH4:
Output Current) at 75 VIN at 25°C Load Step: 25% to 75%
Figure 18. Dynamic Load Transient Waveform (CH1: Output Voltage; CH4:
Output Current) at 75 VIN at 25°C Load Step: 25% to 75%
2.5 Turn On Transience
Test condition:
•
The unit was tested when turned on by on/off or input from no load to full load.
Pass/fail criteria:
•
Rise time < 40 ms
Table 15. Turn on Transience1
Item
Start Up by On/Off
VIN (V)
36
48
75
Start Up by Input
36
48
75
Load (A)
0
25
0
25
0
25
0
25
0
25
0
25
Min
Specification (ms)
Typ
Max
100
100
100
100
100
100
Pass or Fail
Monotonic Waveform when Turned On (Yes/No)
1
CC mode, 0 V sinking threshold as default.
Rev. 0 | Page 14 of 37
Test Results (ms)
−40°C
+25°C
+85°C
30.11
30.15
30.00
30.09
29.69
29.77
29.95
29.91
30.08
30.00
30.08
30.08
Pass
Yes
ADP1050-ACF-150EB User Guide
UG-691
Figure 19. Turn On Transience (CH2: Output Voltage; CH3: Input Voltage/On
Off) 36 VIN 0 A VIN Turn On at 25°C
Figure 22. Turn On Transience (CH2: Output Voltage; CH3: Input Voltage/On
Off) 36 VIN 25 A On/Off Turn On at 25°C
Figure 20. Turn On Transience (CH2: Output Voltage; CH3: Input Voltage/On
Off) 36 VIN 25 A VIN Turn on at 25°C
Figure 23. Turn On Transience (CH2: Output Voltage; CH3: Input Voltage/On
Off) 48 VIN 0 A VIN Turn On at 25°C
Figure 21. Turn On Transience (CH2: Output Voltage; CH3: Input Voltage/On
Off) 36 VIN 0 A On/Off Turn On at 25°C
Figure 24. Turn On Transience (CH2: Output Voltage; CH3: Input Voltage/On
Off) 48 VIN 25 A VIN Turn On at 25°C
Rev. 0 | Page 15 of 37
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ADP1050-ACF-150EB User Guide
Figure 25. Turn On Transience (CH2: Output Voltage; CH3: Input Voltage/On
Off) 48 VIN 0 A On/Off Turn On at 25°C
Figure 28. Turn On Transience (CH2: Output Voltage; CH3: Input Voltage/On
Off) 75 VIN 25 A VIN Turn On at 25°C
Figure 26. Turn On Transience (CH2: Output Voltage; CH3: Input Voltage/On
Off) 48 VIN 25 A On/Off Turn On at 25°C
Figure 29. Turn On Transience (CH2: Output Voltage; CH3: Input Voltage/On
Off) 75 VIN 0 A On/Off Turn On at 25°C
Figure 27. Turn On Transience (CH2: Output Voltage; CH3: Input Voltage/On
Off) 75 VIN 0 A VIN Turn On at 25°C
Figure 30. Turn On Transience (CH2: Output Voltage; CH3: Input Voltage/On
Off) 75 VIN 25 A On/off Turn On at 25°C
Rev. 0 | Page 16 of 37
ADP1050-ACF-150EB User Guide
UG-691
2.6 Turn Off Transience
Test condition:
•
The unit was tested when turned off by the on/off pin or input from full load to no load.
Pass/fail criteria:
•
Output voltage monotonic drop and no negative current.
Table 16. Turn Off Transience
VIN (V)
36
48
75
36
48
75
Pass or Fail
Load (A)
0
Specification
Monotonic drop and no negative current
−40°C
25
Pass or Fail
+25°C
+85°C
Pass
Pass
Pass
Pass
Pass
Pass
Pass
Figure 31. Turn Off Transience (CH2: Output Voltage; CH3: Input Voltage/On
Off) at 36 VIN 0 A VIN Turn Off at 25°C
Figure 33. Turn Off Transience (CH2: Output Voltage; CH3: Input Voltage/On
Off) at 36 VIN 0 A On/Off Turn Off at 25°C
Figure 32. Turn Off Transience (CH2: Output Voltage; CH3: Input Voltage/On
Off) at 36 VIN 25 A VIN Turn Off at 25°C
Figure 34. Turn Off Transience (CH2: Output Voltage; CH3: Input Voltage/On
Off) at 36 VIN 25 A On/Off Turn Off at 25°C
Rev. 0 | Page 17 of 37
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ADP1050-ACF-150EB User Guide
Figure 35. Turn Off Transience (CH2: Output Voltage; CH3: Input Voltage/On
Off) at 48 VIN 0 A VIN Turn Off at 25°C
Figure 38. Turn Off Transience (CH2: Output Voltage; CH3: Input Voltage/On
Off) at 48 VIN 25 A On/Off Turn Off at 25°C
Figure 36. Turn Off Transience (CH2: Output Voltage; CH3: Input Voltage/On
Off) at 48 VIN 25 A VIN Turn Off at 25°C
Figure 39. Turn Off Transience (CH2: Output Voltage; CH3: Input Voltage/On
Off) at 75 VIN 0 A VIN Turn Off at 25°C
Figure 37. Turn Off Transience (CH2: Output Voltage; CH3: Input Voltage/On
Off) at 48 VIN 0 A On/Off Turn Off at 25°C
Figure 40. Turn Off Transience (CH2: Output Voltage; CH3: Input Voltage/On
Off) at 75 VIN 25 A VIN Turn Off at 25°C
Rev. 0 | Page 18 of 37
ADP1050-ACF-150EB User Guide
UG-691
Figure 41. Turn Off Transience (CH2: Output Voltage; CH3: Input Voltage/On
Off) at 75 VIN 0 A On/Off Turn Off at 25°C
Figure 42. Turn Off Transience (CH2: Output Voltage; CH3: Input Voltage/On
Off) at 75 VIN 25 A On/Off Turn Off at 25°C
2.7 Stability
Test condition:
•
The loop gain test set at maximum/minimum load at the rated input voltage. Measure feedback loop stability.
Pass/Fail criteria:
•
Phase margin shall be greater than 45°. Gain margin shall be less than −12 dB.
Table 17. Loop Stability Margin
Phase Margin (°)
60
25
40
Test Results (°)
+25°C
+85°C
101.6
103.4
101.9
103.3
105.0
105.2
Pass
Gain Margin (°)
12
Test Results (dB)
−40°C
+25°C
+85°C
17.7
17.1
18.5
17.2
16.4
18.1
Pass
40
32
144
32
144
24
108
24
108
16
72
16
72
36
0
0
PHASE (Degress)
8
MAGNITUDE (dB)
180
180
8
36
0
0
–8
–36
–8
–36
–16
–72
–16
–72
–24
–108
–24
–108
–32
–144
–32
–144
–40
100
1
1k
10k
FREQUENCY (Hz)
–180
2
100k
12307-035
MAGNITUDE (dB)
−40°C
–40
100
Figure 43. Loop Stability Waveform at 36 VIN, 0 A at 25°C
1
1k
2
10k
FREQUENCY (Hz)
–180
100k
Figure 44. Loop Stability Waveform at 36 VIN, 25 A at 25°C
Rev. 0 | Page 19 of 37
PHASE (Degress)
Load (A)
0
12307-036
VIN (V)
36
48
75
36
48
75
Pass or Fail
180
32
144
32
144
24
108
24
108
16
72
16
72
8
36
8
36
0
0
0
0
–8
–36
–8
–36
–16
–72
–16
–72
–24
–108
–24
–108
–32
–144
–32
–144
2
10k
FREQUENCY (Hz)
–180
100k
–40
100
2
10k
FREQUENCY (Hz)
–180
100k
Figure 47. Loop Stability Waveform at 75 VIN, 0 A at 25°C
Figure 45. Loop Stability Waveform at 48 VIN, 0 A at 25°C
180
40
180
32
144
32
144
24
108
24
108
16
72
16
72
8
36
8
36
0
0
0
–8
–36
–72
–16
–72
–108
–24
–108
–144
–32
–144
–8
–36
–16
–24
–32
–40
100
1
1k
10k
FREQUENCY (Hz)
PHASE (Degress)
0
MAGNITUDE (dB)
40
–180
2
100k
12307-038
MAGNITUDE (dB)
1
1k
–40
100
1
1k
2
10k
FREQUENCY (Hz)
–180
100k
Figure 48. Loop Stability Waveform at 75 VIN, 25 A at 25°C
Figure 46. Loop Stability Waveform at 48 VIN, 25 A at 25°C
Rev. 0 | Page 20 of 37
PHASE (Degress)
1
1k
12307-040
–40
100
12307-039
40
MAGNITUDE (dB)
180
PHASE (Degress)
40
PHASE (Degress)
ADP1050-ACF-150EB User Guide
12307-037
MAGNITUDE (dB)
UG-691
ADP1050-ACF-150EB User Guide
UG-691
2.8 Prebias Test
Test condition:
•
The unit was tested when turned-on by control.
Pass/fail criteria:
•
Output voltage monotonic and smooth startup; reverse current less than 500 mA.
Figure 49. Prebias Waveform (CH1: Reverse Current; CH3: Output Voltage) at
36 V Prebias Soft Start from 4.8 V
(0xFE6C[1] = 1, 0xFE39 = 58h)
Figure 51. Prebias Waveform (CH1: Reverse Current; CH3: Output Voltage) at
60 V Prebias Soft Start from 4.8 V
(0xFE6C[1] = 1, 0xFE39 = 58h)
Figure 50. Prebias Waveform (CH1: Reverse Current; CH3: Output Voltage) at
48 V Prebias Soft Start from 4.8 V
(0xFE6C[1] = 1, 0xFE39 = 58h)
Figure 52. Prebias Waveform (CH1: Reverse Current; CH3: Output Voltage) at
75 V Prebias Soft Start from 4.8 V
(0xFE6C[1] = 1, 0xFE39 = 58h)
Rev. 0 | Page 21 of 37
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ADP1050-ACF-150EB User Guide
Figure 53. Prebias Waveform (CH1: Reverse Current; CH3: Output Voltage) at
36 V Prebias Soft Start from 5.4 V
(0xFE6C[1] = 1, 0xFE39 = 58h)
Figure 56. Prebias Waveform (CH1: Reverse Current; CH3: Output Voltage) at
75 V Prebias Soft Start from 5.4 V
(0xFE6C[1] = 1, 0xFE39 = 58h)
Figure 54. Prebias Waveform (CH1: Reverse Current; CH3: Output Voltage) at
48 V Prebias Soft Start from 5.4 V
(0xFE6C[1] = 1, 0xFE39 = 58h)
Figure 57. Prebias Waveform (CH1: Reverse Current; CH3: Output Voltage) at
36 V Prebias Soft Start from 6.0 V
(0xFE6C[1] = 1, 0xFE39 = 58h)
Figure 55. Prebias Waveform (CH1: Reverse Current; CH3: Output Voltage) at
60 V Prebias Soft Start from 5.4 V
(0xFE6C[1] = 1, 0xFE39 = 58h)
Figure 58. Prebias Waveform (CH1: Reverse Current; CH3: Output Voltage) at
48 V Prebias Soft Start from 6.0 V
(0xFE6C[1] = 1, 0xFE39 = 58h)
Rev. 0 | Page 22 of 37
ADP1050-ACF-150EB User Guide
UG-691
Figure 59. Prebias Waveform (CH1: Reverse Current; CH3: Output Voltage) at
60 V Prebias Soft Start from 6.0 V
(0xFE6C[1] = 1, 0xFE39 = 58h)
Figure 60. Prebias Waveform (CH1: Reverse Current; CH3: Output Voltage) at
75 V Prebias Soft Start from 6.0 V
(0xFE6C[1] = 1, 0xFE39 = 58h)
Protection
3.1 Output Overcurrent Protection (Output OCP)
Test condition:
•
The load is increased to an estimated overcurrent value in several steps. The test is repeated with different input voltages.
Pass/fail criteria:
•
The unit test shall meet the specification requirements.
Table 18. OCP Threshold
VIN (V)
36
48
75
Pass or Fail
Min
Specification (A)
Typ
Max
32
32
32
Pass
Rev. 0 | Page 23 of 37
−40°C
Value (A)
+25°C
35.3
32.9
28.6
+85°C
UG-691
ADP1050-ACF-150EB User Guide
Figure 61. OCP Hiccup (CH2: Output Voltage; CH1: Output Current) at 36 VIN
at 25°C
Figure 63. OCP Hiccup (CH2: Output Voltage; CH1: Output Current) at 75 VIN
at 25°C
Figure 62. OCP Hiccup (CH2: Output Voltage; CH1: Output Current) at 48 VIN
at 25°C
Rev. 0 | Page 24 of 37
ADP1050-ACF-150EB User Guide
UG-691
3.2 Output Short-Circuit Protection (Output SCP)
Test condition:
•
A short circuit is defined as less than 0.1 Ω resistance between the output terminals.
Pass/fail criteria:
•
The unit test shall meet the specification requirements.
Figure 64. SCP Hiccup (CH2: Output Voltage CH4: Output Current) at 36 VIN
Turn On at No Load Then Short at 25°C
Figure 66. SCP Hiccup (CH2: Output Voltage CH4: Output Current) at 36 VIN
Short Then Turn On at 25°C
Figure 65. SCP Hiccup (CH2: Output Voltage CH4: Output Current) at 36 VIN
Turn On Full Load Then Short at 25°C
Figure 67. SCP Hiccup (CH2: Output Voltage CH4: Output Current) at 48 VIN
Turn On at No Load Then Short at 25°C
Rev. 0 | Page 25 of 37
UG-691
ADP1050-ACF-150EB User Guide
Figure 68. SCP Hiccup (CH2: Output Voltage CH4: Output Current) at 48 VIN
Turn On Full Load Then Short at 25°C
Figure 71. SCP Hiccup (CH2: Output Voltage CH4: Output Current) at 75 VIN
Turn On Full Load Then Short at 25°C
Figure 69. SCP Hiccup (CH2: Output Voltage CH4: Output Current) at 48 VIN
Short Then Turn On at 25°C
Figure 72. SCP Hiccup (CH2: Output Voltage CH4: Output Current) at 75 VIN
Short Then Turn On at 25°C
Figure 70. SCP Hiccup (CH2: Output Voltage CH4: Output Current) at 75 VIN
Turn On at No Load Then Short at 25°C
Rev. 0 | Page 26 of 37
ADP1050-ACF-150EB User Guide
UG-691
3.3 Output Overvoltage Protection (Output OVP)
Test condition:
•
Short the lower resistor of feedback divider network.
Pass/fail criteria:
•
The unit test shall meet the specification requirements.
Table 19. OVP Threshold
VIN (V)
36
48
75
36
48
75
Pass or Fail
Load (A)
0
Specification (V)
7.00
−40°C
25
Test Results (V)
+25°C
6.64
6.64
6.48
6.88
6.96
6.88
Pass
+85°C
Figure 73. OVP Threshold (CH2: Output Voltage) at 36 VIN, 0 A at 25°C
Figure 75. OVP Threshold (CH2: Output Voltage) at 48 VIN, 0 A at 25°C
Figure 74. OVP Threshold (CH2: Output Voltage) at 36 VIN, 25 A at 25°C
Figure 76. OVP Threshold (CH2: Output Voltage) at 48 VIN, 25 A at 25°C
Rev. 0 | Page 27 of 37
UG-691
ADP1050-ACF-150EB User Guide
Figure 77. OVP Threshold (CH2: Output Voltage) at 75 VIN, 0 A at 25°C
Figure 78. OVP Threshold (CH2: Output Voltage) at 75 VIN, 25 A at 25°C
Rev. 0 | Page 28 of 37
ADP1050-ACF-150EB User Guide
UG-691
12307-003
SCHEMATICS AND ARTWORK
Figure 79. Schematic
Rev. 0 | Page 29 of 37
ADP1050-ACF-150EB User Guide
12307-004
UG-691
12307-005
Figure 80. Layer 1
12307-006
Figure 81. Layer 2
Figure 82. Layer 3
Rev. 0 | Page 30 of 37
UG-691
12307-007
ADP1050-ACF-150EB User Guide
12307-008
Figure 83. Layer 4
12307-009
Figure 84. Layer 5
Figure 85. Layer 6
Rev. 0 | Page 31 of 37
ADP1050-ACF-150EB User Guide
12307-010
UG-691
12307-011
Figure 86. Layer 7
12307-012
Figure 87. Layer 8
Figure 88. Layer 9
Rev. 0 | Page 32 of 37
UG-691
12307-013
ADP1050-ACF-150EB User Guide
12307-014
Figure 89. Layer 10
12307-015
Figure 90. Layer 11
Figure 91. Layer 12
Rev. 0 | Page 33 of 37
ADP1050-ACF-150EB User Guide
12307-016
UG-691
12307-017
Figure 92. Layer 13
Figure 93. Layer 14
Rev. 0 | Page 34 of 37
ADP1050-ACF-150EB User Guide
UG-691
ORDERING INFORMATION
BILL OF MATERIALS
Table 20.
Qty
1
3
1
1
1
1
1
1
1
1
1
Ref
C90
C101, C102,
C106
C103
C104, C306,
C509
C105, C107,
C502, C505
C201, C204,
C508
C202
C203
C205, C206,
C210, C212,
C305
C207
C208
C209
C211
C301
C302
C303
C304
C307, C308,
C501, C504
C401, C403
C404
C405
C406, C407
C503
C506, C507
D102, D201,
D202, D204,
D501
D203
D401
JP1
JP2
JP3
JP4
JP5
JP6
JP7
1
1
1
1
2
1
JP8
JP10
L101
L401
Q101, Q102
Q103
NRPN071PAEN-RC
PIMB042T-R47MS
RM6ILP
BSC520N15NS3 G
SI7115DN-T1-E3
VOUT−
dosa
0.47 µH
RM6ILP
BSC520
SI7115
Swage Terminal Pin 1.5 mm
Connector header 2 mm single straight 7-position
Power choke coil PIMB042T type
Inductor RM6ILP
MOSFET, N-CH, 150 V, 21 A, TDSON-8
MOSFET, P-CH, D-S, 150 V, PPAK 1212-8
1
1
1
2
1
Q201
Q202
Q401
Q402, Q403
RT1
BC846BM3T5G
MMBT2907AWT1G
BSC010N04LSI
SIR662DP-T1-GE3
NCP15WF104F03RC
BC846BM3T5G
MMBT2907
BSC010N04LSI
SIR662DP
100 kΩ
Transistor, NPN, 65 V, 100 mA, SOT-723
Transistor, GP SS PNP, 60 V, SOT323
MOSFET, N-CH, 40 V, 100 A, TDSON-8
MOSFET, N-CH, 60 V, 60 A, 8-SO PWRPAK
Thermistor, 100 kΩ, NTC 0402 SMD
1
3
4
3
1
1
5
1
1
1
1
1
1
1
1
4
2
1
1
2
1
2
5
Part Number
C1206C102MGRACTU
12061Z475KAT2A
Value
1 nF/2000 V
4.7 µF/100 V
Description
Capacitor, ceramic, 1000 pF, 2 kV, 20%, X7R, 1206
Capacitor, ceramic, 4.7 µF, 100 V, 10% X7S, 1206
Vendor
Kemet
AVX
Package
C1206
C1206
C3216X7R2E683K160AA
C1005X7R1C104M050BC
68 nF/250 V
0.1 µF/16 V
Capacitor, ceramic, 0.068 µF, 250 V, X7R, 1206
Capacitor, ceramic, 0.1 µF, 16 V, 20%, X7R, 0402
TDK
TDK
C1206
C0402
C1608X7R1C105M080AC
1 µF/16 V
Capacitor, ceramic, 1 µF, 16 V, 20%, X7R, 0603
TDK
C0603
C1005X7R1E103K050BB
10 nF/25 V
Capacitor, ceramic, 10000 pF, 25 V, 10%, X7R, 0402
TDK
C0402
C1005X7R1E104K050BB
C1005C0G1H101K050BA
C1005C0G1H102K050BA
0.1 µF/25 V
100 pF/50 V
1 nF/50 V
Capacitor, ceramic, 0.1 µF, 25 V, 10%, X7R, 0402
Capacitor, ceramic, 100 pF, 50 V, 10%, NP0, 0402
Capacitor, ceramic, 1000 pF, 50 V, 10%, NP0, 0402
TDK
TDK
TDK
C0402
C0402
C0402
C1608X7S2A104K080AB
C1005X7S1A225K050BC
C1005X7S1A334K050BC
C0402C101J1GACTU
C1005X7R1H221M050BA
C1608X7R1E105K080AB
C2012X7S2A105K125AB
C1005C0G1H391K050BA
C2012X7R1E475K125AB
100 nF/100 V
2.2 µF/10 V
0.33 µF/10 V
100 pF/100 V
220 pF/50 V
1 µF/25 V
1 µF/100 V
390 pF/50 V
4.7 µF/25 V
Capacitor, ceramic, 0.1 µF, 100 V, 10%, X7S, 0603
Capacitor, ceramic, 2.2 µF, 10 V, 10%, X7S, 0402
Capacitor, ceramic, 0.33 µF, 10 V, 10%, X7S, 0402
Capacitor, ceramic, 100 pF, 100 V, 5%, NP0, 0402
Capacitor, ceramic, 220 pF, 50 V, 20%, X7R, 0402
Capacitor, ceramic, 1 µF, 25 V, 10%, X7R, 0603
Capacitor, ceramic, 1 µF, 100 V, 10%, X7S, 0805
Capacitor, ceramic, 390 pF, 50 V, 10%, NP0, 0402
Capacitor, ceramic, 4.7 µF, 25 V, 10%, X7R, 0805
TDK
TDK
TDK
KEMET
TDK
TDK
TDK
TDK
TDK
C0603
C0402
C0402
C0402
C0402
C0603
C0805
C0402
C0805
GRM32ER71A476ME15L
C1608X7R1H222M
C1608X7R1H103M080AA
GRM31CR71A226KE15L
C1005X7S0J105K050BC
C1005X7S1A105K050BC
BAS516_115
47 µF/10 V
2.2 nF/50 V
10 nF/50 V
22 µF/10 V
1 µF/6.3 V
1 µF/10 V
BAS516
Capacitor, ceramic, 47 µF, 10 V, 20%, X7R, 1210
Capacitor, ceramic, 2200 pF, 50 V, 20%, X7R, 0603
Capacitor, ceramic, 10000 pF, 50 V, 20%, X7R, 0603
Capacitor, ceramic, 22 µF, 10 V, 10%, X7R, 1206
Capacitor, ceramic, 1 µF, 6.3 V, 10%, X7S, 0402
Capacitor, ceramic, 1 µF, 10 V, 10%, X7S, 0402
Diode switch, 100 V, 0.25 A, SOD523
Murata
TDK
TDK
Murata
TDK
TDK
NXP
C1210
C0603
C0603
C1206
C0402
C0402
SOD523as
ZR431F01TA
PD3S160-7
ZR431
PD3S160-7
VIN+
ON/OFF
VIN−
VOUT+
VSENSE+
NC
VSENSE−
IC VREF shunt precision adjustable SOT-23
Diode Schottky, 60 V, 1 A, POWERDI323
Swage Terminal Pin 1.0 mm
Swage Terminal Pin 1.0 mm
Swage Terminal Pin 1.0 mm
Swage Terminal Pin 1.5 mm
Swage Terminal Pin 1.0 mm
Swage Terminal Pin 1.0 mm
Swage Terminal Pin 1.0 mm
DIODES
DIODES
SOT23
powerdi323as
Sullins
Cyntec
TDK
Infineon
Vishay
Siliconix
ON Semi
ON Semi
Infineon
Fairchild
Vishay Dale
dosa7
pimb042t
rm6ilp
PWRPAKSO8
PPAK1212_8
Rev. 0 | Page 35 of 37
SOT723
SOT323
PWRPAKSO8
PWRPAKSO8
R0402
UG-691
ADP1050-ACF-150EB User Guide
Qty
1
Ref
R105
Part Number
CRCW06034R70FKEA
Value
4.7 Ω
Description
Resistor, 4.70 Ω, 1/10 W, 1%, 0603 SMD
Vendor
Vishay Dale
Package
R0603
10
CRCW040210K0FKED
10 kΩ
Resistor, 10.0 kΩ, 1/16 W, 1%, 0402 SMD
Vishay Dale
R0402
CRCW04025K11FKED
5.11 Ω
Resistor, 5.11 kΩ, 1/16 W, 1%, 0402 SMD
Vishay Dale
R0402
CRCW060320R0FKEA
CRCW0402680RFKED
CRCW040218K2FKED
CRCW04021K50FKED
CRCW040222K6FKED
CRCW04021K00FKED
CRCW040216K5FKED
CRCW04022K00FKED
CRCW040210R0FKED
Open
CRCW04022K20FKED
TNPW040210K0BEED
CRCW0402100RFKED
CRCW040249K9FKED
20 Ω
680 Ω
18.2 kΩ
1.5 kΩ
22.6 kΩ
1 kΩ
16.5 kΩ
2 kΩ
10 Ω
Open
2.2 kΩ
10 kΩ, 0.1%
100 Ω
49.9 kΩ
Resistor, 20.0 Ω, 1/10 W, 1%, 0603 SMD
Resistor, 680 Ω, 1/16 W, 1%, 0402 SMD
Resistor, 18.2 kΩ, 1/16 W, 1%, 0402 SMD
Resistor, 1.50 kΩ, 1/16 W, 1%, 0402 SMD
Resistor, 22.6 kΩ, 1/16 W, 1%, 0402 SMD
Resistor, 1.00 kΩ, 1/16 W, 1%, 0402 SMD
Resistor, 16.5 kΩ, 1/16 W, 1%, 0402 SMD
Resistor, 2.00 kΩ, 1/16 W, 1%, 0402 SMD
Resistor, 10.0 Ω, 1/16 W, 1%, 0402 SMD
Resistor, 2.20 kΩ, 1/16 W, 1%, 0402 SMD
Resistor, 2.20 kΩ, 1/16 W, 1%, 0402 SMD
Resistor, 10.0 kΩ, 1/16 W, 0.1%, 0402
Resistor, 100 Ω, 1/16 W, 1%, 0402 SMD
Resistor, 49.9 kΩ, 1/16 W, 1%, 0402 SMD
Vishay Dale
Vishay Dale
Vishay Dale
Vishay Dale
Vishay Dale
Vishay Dale
Vishay Dale
Vishay Dale
Vishay Dale
Vishay Dale
Vishay Dale
Vishay Dale
Vishay Dale
Vishay Dale
R0603
R0402
R0402
R0402
R0402
R0402
R0402
R0402
R0402
R0402
R0402
R0402
R0402
R0402
CRCW0402200KFKED
CRCW04028K20FKED
CRCW040251K1FKED
CRCW0402374KFKED
CRCW040220K5FKED
CRCW04026K81FKED
CRCW06035R11FKEA
CRCW06035K11FKEA
200 kΩ
8.2 kΩ
51.1 kΩ
374 kΩ
20.5 kΩ
6.81 kΩ
5.11 Ω
5.11 kΩ
Resistor, 200 kΩ, 1/16 W, 1%, 0402 SMD
Resistor, 8.20 kΩ, 1/16 W, 1%, 0402 SMD
Resistor, 51.1 kΩ, 1/16 W, 1%, 0402 SMD
Resistor, 374 kΩ, 1/16 W, 1%, 0402 SMD
Resistor, 20.5 kΩ, 1/16 W, 1%, 0402 SMD
Resistor, 6.81 kΩ, 1/16 W, 1%, 0402 SMD
Resistor, 5.11 Ω, 1/10 W, 1%, 0603 SMD
Resistor, 5.11 kΩ, 1/10 W, 1%, 0603 SMD
Vishay Dale
Vishay Dale
Vishay Dale
Vishay Dale
Vishay Dale
Vishay Dale
Vishay Dale
Vishay Dale
R0402
R0402
R0402
R0402
R0402
R0402
R0603
R0603
1
1
1
1
1
1
R106, R107,
R204,R205,
R215, R218,
R233, R311,
R401, R403
R203, R225,
R234, R237,
R238
R206
R208, R304
R209
R210
R211
R213
R214
R216, R219
R217
R221
R222, R224
R226
R227
R231, R239,
R303
R232
R235
R236
R301, R302
R309
R310
R402, R407
R404, R405,
R406
T1
T10
T12
U201
U301
U501
Transformer
CST7030_100L
SG0522_AE
PS2911-1-V-F3-M-A
UCC25230DRMT
ADUM3221ARZ-RL7
RM7ILP
CT
SG0522
PS2911
UCC25230
ADuM3221
Transformer RM7ILP
SMT current sense transformer EE4.2
Flyback/buck transformer
Optocoupler trans 2.5 kVRMS 4SMD
IC reg multi config sync 8 VSON
IC DGTL ISO 2CH logic 1 MHZ 8SOIC
rm7ilp
cst7030
SG0522
MSOP4
DFN8
R-8Z
1
U502
ADP3654ARHZ-RL
ADP3654
IC MOSFET DVR 4 A dual HS 8SOIC
1
1
U503
U504
MIC5213-3.3YC5
ADP1050
MIC5213
ADP1050
IC REG LDO 3.3 V, 80 MA SC70-5
IC digital power management, 20-lead LFCSP
TDK
Coilcraft
Coilcraft
CEL
TI
Analog
Devices
Analog
Devices
Micrel
Analog
Devices
5
1
2
1
1
1
1
1
2
1
1
2
1
1
3
1
1
1
2
1
1
2
3
Rev. 0 | Page 36 of 37
MSOP8_TP
SC70
LFCSP_20
ADP1050-ACF-150EB User Guide
UG-691
NOTES
ESD Caution
ESD (electrostatic discharge) sensitive device. Charged devices and circuit boards can discharge without detection. Although this product features patented or proprietary protection
circuitry, damage may occur on devices subjected to high energy ESD. Therefore, proper ESD precautions should be taken to avoid performance degradation or loss of functionality.
Legal Terms and Conditions
By using the evaluation board discussed herein (together with any tools, components documentation or support materials, the “Evaluation Board”), you are agreeing to be bound by the terms and conditions
set forth below (“Agreement”) unless you have purchased the Evaluation Board, in which case the Analog Devices Standard Terms and Conditions of Sale shall govern. Do not use the Evaluation Board until you
have read and agreed to the Agreement. Your use of the Evaluation Board shall signify your acceptance of the Agreement. This Agreement is made by and between you (“Customer”) and Analog Devices, Inc.
(“ADI”), with its principal place of business at One Technology Way, Norwood, MA 02062, USA. Subject to the terms and conditions of the Agreement, ADI hereby grants to Customer a free, limited, personal,
temporary, non-exclusive, non-sublicensable, non-transferable license to use the Evaluation Board FOR EVALUATION PURPOSES ONLY. Customer understands and agrees that the Evaluation Board is provided
for the sole and exclusive purpose referenced above, and agrees not to use the Evaluation Board for any other purpose. Furthermore, the license granted is expressly made subject to the following additional
limitations: Customer shall not (i) rent, lease, display, sell, transfer, assign, sublicense, or distribute the Evaluation Board; and (ii) permit any Third Party to access the Evaluation Board. As used herein, the term
“Third Party” includes any entity other than ADI, Customer, their employees, affiliates and in-house consultants. The Evaluation Board is NOT sold to Customer; all rights not expressly granted herein, including
ownership of the Evaluation Board, are reserved by ADI. CONFIDENTIALITY. This Agreement and the Evaluation Board shall all be considered the confidential and proprietary information of ADI. Customer may
not disclose or transfer any portion of the Evaluation Board to any other party for any reason. Upon discontinuation of use of the Evaluation Board or termination of this Agreement, Customer agrees to
promptly return the Evaluation Board to ADI. ADDITIONAL RESTRICTIONS. Customer may not disassemble, decompile or reverse engineer chips on the Evaluation Board. Customer shall inform ADI of any
occurred damages or any modifications or alterations it makes to the Evaluation Board, including but not limited to soldering or any other activity that affects the material content of the Evaluation Board.
Modifications to the Evaluation Board must comply with applicable law, including but not limited to the RoHS Directive. TERMINATION. ADI may terminate this Agreement at any time upon giving written notice
to Customer. Customer agrees to return to ADI the Evaluation Board at that time. LIMITATION OF LIABILITY. THE EVALUATION BOARD PROVIDED HEREUNDER IS PROVIDED “AS IS” AND ADI MAKES NO
WARRANTIES OR REPRESENTATIONS OF ANY KIND WITH RESPECT TO IT. ADI SPECIFICALLY DISCLAIMS ANY REPRESENTATIONS, ENDORSEMENTS, GUARANTEES, OR WARRANTIES, EXPRESS OR IMPLIED, RELATED
TO THE EVALUATION BOARD INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTY OF MERCHANTABILITY, TITLE, FITNESS FOR A PARTICULAR PURPOSE OR NONINFRINGEMENT OF INTELLECTUAL
PROPERTY RIGHTS. IN NO EVENT WILL ADI AND ITS LICENSORS BE LIABLE FOR ANY INCIDENTAL, SPECIAL, INDIRECT, OR CONSEQUENTIAL DAMAGES RESULTING FROM CUSTOMER’S POSSESSION OR USE OF
THE EVALUATION BOARD, INCLUDING BUT NOT LIMITED TO LOST PROFITS, DELAY COSTS, LABOR COSTS OR LOSS OF GOODWILL. ADI’S TOTAL LIABILITY FROM ANY AND ALL CAUSES SHALL BE LIMITED TO THE
AMOUNT OF ONE HUNDRED US DOLLARS ($100.00). EXPORT. Customer agrees that it will not directly or indirectly export the Evaluation Board to another country, and that it will comply with all applicable
United States federal laws and regulations relating to exports. GOVERNING LAW. This Agreement shall be governed by and construed in accordance with the substantive laws of the Commonwealth of
Massachusetts (excluding conflict of law rules). Any legal action regarding this Agreement will be heard in the state or federal courts having jurisdiction in Suffolk County, Massachusetts, and Customer hereby
submits to the personal jurisdiction and venue of such courts. The United Nations Convention on Contracts for the International Sale of Goods shall not apply to this Agreement and is expressly disclaimed.
©2014 Analog Devices, Inc. All rights reserved. Trademarks and
registered trademarks are the property of their respective owners.
UG12307-0-10/14(0)
Rev. 0 | Page 37 of 37