Off-line systems with auto-ranging or PFC front ends, industrial and process control,
distributed power, medical, ATE, communications, defense and aerospace.
For details on proper operation please refer to the:
Design Guide & Applications Manual for Maxi, Mini, Micro Family.
Absolute Maximum Ratings
Parameter
+IN to –IN voltage
PC to –IN voltage
PR to –IN voltage
SC to -OUT voltage
-Sense to -OUT voltage
Isolation voltage
IN to OUT
IN to base
OUT to base
Operating Temperature
Storage Temperature
Pin soldering temperature
Mounting torque
Rating
-0.5 to +410
-0.5 to +7.0
-0.5 to +7.0
-0.5 to +1.5
1.0
3000
1500
500
-55 to +100
-65 to +125
500 (260)
750 (390)
5 (0.57)
Unit
V
DC
V
DC
V
DC
V
DC
V
DC
V
RMS
V
RMS
V
RMS
°C
°C
°F (°C)
°F (°C)
in-lbs (N-m)
Test voltage
Test voltage
Test voltage
M-Grade
M-Grade
<5 sec; wave solder
<7 sec; hand solder
6 each
Notes
Product Overview
These DC-DC converter modules use advanced
power processing, control and packaging
technologies to provide the performance,
flexibility, reliability and cost effectiveness of a
mature power component.
High frequency ZCS/ZVS switching provides
high power density with low noise and
high efficiency.
Part Numbering
e.g. V300B12T250BL2
300B
Product Grade Temperatures (°C)
Grade
Operating
Storage
E
=
- 10 to +100
- 20 to +125
C
=
- 20 to +100
- 40 to +125
T
=
- 40 to +100
- 40 to +125
H
=
- 40 to +100
- 55 to +125
M
=
- 55 to +100
- 65 to +125
B
Output Power
P
OUT
100W
100W, 150W
150W, 200W
200W
150W, 250W
150W, 250W
150W, 250W
150W, 250W
150W, 250W
150W, 250W
Product Type
V
= Standard
S
= Enhanced
efficiency
(avail.
≤12
V
OUT
only)
Output Voltage
2
= 2V
3V 3
= 3.3V
5
= 5V
8
= 8V
12
= 12V
15
= 15V
24
= 24V
28
= 28V
36
= 36V
48
= 48V
V
OUT
2V
3.3V
5V
8V
12V
15V
24V
28V
36V
48V
Finish
Pin Style
Tin/Lead
Blank:
Short
Tin/Lead
L:
Long
Gold
S:
Short ModuMate
Gold
N:
Long ModuMate
Gold
F:
Short RoHS
Gold
G:
Long RoHS
Gold
K:
Extra Long RoHS
Baseplate
Blank:
Slotted
2:
Threaded
3:
Through-hole
300V Mini Family
Page 1 of 14
Rev 9.6
06/2017
vicorpower.com
800 927.9474
300V Input
Module Family Electrical Characteristics
Electrical characteristics apply over the full operating range of input voltage, output load (resistive) and baseplate temperature, unless otherwise specified.
All temperatures refer to the operating temperature at the center of the baseplate.
MODULE INPUT SPECIFICATIONS
Parameter
Operating input voltage
Input surge withstand
Undervoltage turn-on
Undervoltage turn-off
Overvoltage turn-off/on
Disabled input current
147.4
378.7
174.6
152.8
393.8
412.6
1.2
Min
180
Typ
300
Max
375
400
178.2
Unit
V
DC
V
DC
V
DC
V
DC
V
DC
mA
PC pin low
<100ms
Notes
MODULE OUTPUT SPECIFICATIONS
Parameter
Output voltage setpoint
Line regulation
Temperature regulation
Power sharing accuracy
Programming range
10
±0.02
±0.002
±2
Min
Typ
Max
±1
±0.20
±0.005
±5
110
Unit
%
%
% / °C
%
%
Notes
Of nominal output voltage. Nominal input; full load; 25°C
Low line to high line; full load
Over operating temperature range
10 to 100% of full load
Of nominal output voltage. For trimming below 90%
of nominal, a minimum load of 10% of maximum
rated power may be required.
Externally applied
Externally applied
Externally applied
Externally applied
Externally applied
Externally applied
Externally applied
Externally applied
Externally applied
Externally applied
+OUT to –OUT, +Sense to –OUT — Absolute Maximum Ratings
2V
3.3V
5V
8V
12V
15V
24V
28V
36V
48V
-0.5 to 3.1
-0.5 to 4.7
-0.5 to 7.0
-0.5 to 10.9
-0.5 to 16.1
-0.5 to 20.0
-0.5 to 31.7
-0.5 to 36.9
-0.5 to 47.1
-0.5 to 62.9
V
DC
V
DC
V
DC
V
DC
V
DC
V
DC
V
DC
V
DC
V
DC
V
DC
Note:
The permissible load current must never be exceeded during normal, abnormal or test conditions. For additional output related application
information, please refer to output connections on page 9.
THERMAL RESISTANCE AND CAPACITY
Parameter
Baseplate to sink; flat, greased surface
Baseplate to sink; thermal pad (P/N 20264)
Baseplate to ambient
Baseplate to ambient; 1000LFM
Thermal capacity
Min
Typ
0.16
0.14
8.0
1.9
83
Max
Unit
°C/Watt
°C/Watt
°C/Watt
°C/Watt
Watt-sec/°C
300V Mini Family
Page 2 of 14
Rev 9.6
06/2017
vicorpower.com
800 927.9474
300V Input
Module Family Electrical Characteristics (Cont.)
MODULE CONTROL SPECIFICATIONS
Parameter
Min
Typ
Max
Unit
Notes
Primary Side (PC = Primary Control; PR = Parallel)
PC bias voltage
current limit
PC module disable
PC module enable delay
PC module alarm
PC resistance
PR emitter amplitude
PR emitter current
PR receiver impedance
PR receiver threshold
PR drive capability
Secondary Side (SC = Secondary Control)
SC bandgap voltage
SC resistance
SC capacitance
SC module alarm
1.21
990
1.23
1000
0.033
0
1.25
1010
V
DC
Ω
µF
V
DC
With open trim; referenced to –Sense. See Fig. 7
Referenced to –Sense
0.9
5.7
150
375
2.4
500
2.5
625
2.6
12
1.0
5.9
5.50
1.5
2.3
5.75
2.1
2.6
4
6.00
3.0
2.9
7
0.5
1.1
6.1
V
DC
mA
V
DC
ms
Vavg
MΩ
Volts
mA
Ω
Volts
modules
25°C
Minimum pulse width: 20ns
Without PR buffer amplifier
UV, OV, OT, module fault. See Figs. 3 and 5
See Fig. 3, converter off or fault mode
PR load >30Ω, <30pF
PC current = 1.0mA
PC voltage = 5.5V
During normal operation
Switch must be able to sink
≥4mA.
See Fig. 2
MODULE GENERAL SPECIFICATIONS
Parameter
Remote sense (total drop)
Isolation test voltage (IN to OUT)*
Isolation test voltage (IN to base)*
Isolation test voltage (OUT to base)*
Isolation resistance
Weight (E, C, T grade)
Weight (H, M grade)
3.1
(89.3)
3.5
(99.6)
100
3000
1500
500
10
3.5
(100.3)
3.9
(110.6)
115
cURus, cTÜVus, CE
3.9
(111.3)
4.3
(121.6)
Min
Typ
Max
0.5
Unit
V
DC
Vrms
Vrms
Vrms
MΩ
ounces
(grams)
ounces
(grams)
°C
See Figs. 3 and 5. Do not operate coverter >100°C.
UL60950-1, EN60950-1, CSA60950-1, IEC60950-1.
With appropriate fuse in series with the +Input
Notes
0.25V per leg (sense leads must be connected to
respective, output terminals)
Complies with reinforced insulation requirements
Complies with basic insulation requirements
Complies with operational insulation requirements
IN to OUT, IN to baseplate, OUT to baseplate
Temperature limiting
Agency approvals
* Isolation test voltage, 1 minute or less.
Note:
Specifications are subject to change without notice.
300V Mini Family
Page 3 of 14
Rev 9.6
06/2017
vicorpower.com
800 927.9474
300V Input
MODULE SPECIFIC OPERATING SPECIFICATIONS
2
V
OUT
, 100W (e.g. S300B2C100BL, V300B2C100BL)
Parameter
Efficiency
S300B2C100BL (enhanced efficiency)
V300B2C100BL (standard efficiency)
Ripple and noise
Output OVP setpoint
Dissipation, standby
Load regulation
Load current
Current limit
Short circuit current
Min
81.0
73
2.7
Typ
83.0
74
120
2.8
3.8
±0.02
57.5
57.5
Max
Unit
%
150
2.9
4
±0.2
50
70
70
mV
Volts
Watts
%
Amps
Amps
Amps
Notes
Nominal input; full load; 25°C
p-p; Nominal input; full load; 20MHz bandwidth
25°C; recycle input voltage or PC to restart (>100ms off)
No load
No load to full load; nominal input
Output voltage 95% of nominal
Output voltage <250mV
0
51
35
3.3
V
OUT
, 150W (e.g. S300B3V3C150BL, V300B3V3C150BL)
Parameter
Efficiency
S300B3V3C150BL (enhanced efficiency)
V300B3V3C150BL (standard efficiency)
Ripple and noise
Output OVP setpoint
Dissipation, standby
Load regulation
Load current
Current limit
Short circuit current
Min
80.5
79.5
4.14
Typ
84.5
80.6
160
4.3
4.6
±0.02
52.3
52.3
Max
Unit
%
200
4.46
6.9
±0.2
45.45
63.7
63.7
mV
Volts
Watts
%
Amps
Amps
Amps
Notes
Nominal input; full load; 25°C
p-p; Nominal input; full load; 20MHz bandwidth
25°C; recycle input voltage or PC to restart (>100ms off)
No load
No load to full load; nominal input
Output voltage 95% of nominal
Output voltage <250mV
0
46.4
31.8
3.3
V
OUT
, 100W (e.g. S300B3V3C100BL, V300B3V3C100BL)
Parameter
Efficiency
S300B3V3C100BL (enhanced efficiency)
V300B3V3C100BL (standard efficiency)
Ripple and noise
Output OVP setpoint
Dissipation, standby
Load regulation
Load current
Current limit
Short circuit current
Min
80.8
79.5
4.14
Typ
84.5
80.8
84
4.3
4.5
±0.02
34.8
34.8
Max
Unit
%
105
4.46
4.9
±0.2
30.30
41
41
mV
Volts
Watts
%
Amps
Amps
Amps
Notes
Nominal input; full load; 25°C
p-p; Nominal input; full load; 20MHz bandwidth
25°C; recycle input voltage or PC to restart (>100ms off)
No load
No load to full load; nominal input
Output voltage 95% of nominal
Output voltage <250mV
0
30.9
21.2
5
V
OUT
, 200W (e.g. S300B5C200BL, V300B5C200BL)
Parameter
Efficiency
S300B5C200BL (enhanced efficiency)
V300B5C200BL (standard efficiency)
Ripple and noise
Output OVP setpoint
Dissipation, standby
Load regulation
Load current
Current limit
Short circuit current
Min
85.2
84.0
6.03
Typ
87
85.2
80
6.25
4.2
±0.02
46
46
Max
Unit
%
100
6.47
6.3
±0.2
40
52
52
mV
Volts
Watts
%
Amps
Amps
Amps
Notes
Nominal input; full load; 25°C
p-p; Nominal input; full load; 20MHz bandwidth
25°C; recycle input voltage or PC to restart (>100ms off)
No load
No load to full load; nominal input
Output voltage 95% of nominal
Output voltage <250mV
0
40.8
28
300V Mini Family
Page 4 of 14
Rev 9.6
06/2017
vicorpower.com
800 927.9474
300V Input
MODULE SPECIFIC OPERATING SPECIFICATIONS (CONT.)
5
V
OUT
, 150W (e.g. S300B5C150BL, V300B5C150BL)
Parameter
Efficiency
S300B5C150BL (enhanced efficiency)
V300B5C150BL (standard efficiency)
Ripple and noise
Output OVP setpoint
Dissipation, standby
Load regulation
Load current
Current limit
Short circuit current
Min
83.8
80.9
6.03
Typ
86.5
83
198
6.25
6
±0.02
34.5
34.5
Max
Unit
%
248
6.47
9.4
±0.2
30
40.5
40.5
mV
Volts
Watts
%
Amps
Amps
Amps
Notes
Nominal input; full load; 25°C
p-p; Nominal input; full load; 20MHz bandwidth
25°C; recycle input voltage or PC to restart (>100ms off)
No load
No load to full load; nominal input
Output voltage 95% of nominal
Output voltage <250mV
0
30.6
21
8
V
OUT
, 200W (e.g. S300B8C200BL, V300B8C200BL)
Parameter
Efficiency
S300B8C200BL (enhanced efficiency)
V300B8C200BL (standard efficiency)
Ripple and noise
Output OVP setpoint
Dissipation, standby
Load regulation
Load current
Current limit
Short circuit current
Min
84.5
83.2
9.36
Typ
86.5
84.4
280
9.7
5.5
±0.02
28.8
28.8
Max
Unit
%
350
10.1
6.5
±0.2
25
33.8
33.8
mV
Volts
Watts
%
Amps
Amps
Amps
Notes
Nominal input; full load; 25°C
p-p; Nominal input; full load; 20MHz bandwidth
25°C; recycle input voltage or PC to restart (>100ms off)
No load
No load to full load; nominal input
Output voltage 95% of nominal
Output voltage <250mV
0
25.5
17.5
12
V
OUT
, 250W (e.g. S300B12C250BL, V300B12C250BL)
Parameter
Efficiency
S300B12C250BL (enhanced efficiency)
V300B12C250BL (standard efficiency)
Ripple and noise
Output OVP setpoint
Dissipation, standby
Load regulation
Load current
Current limit
Short circuit current
Min
87.3
86.3
13.7
Typ
89.0
87.3
150
14.3
4
±0.06
24
24
Max
Unit
%
188
14.9
6
±0.3
20.83
28.1
28.1
mV
Volts
Watts
%
Amps
Amps
Amps
Notes
Nominal input; full load; 25°C
p-p; Nominal input; full load; 20MHz bandwidth
25°C; recycle input voltage or PC to restart (>100ms off)
No load
No load to full load; nominal input
Output voltage 95% of nominal
Output voltage <250mV
0
21.3
14.6
12
V
OUT
, 150W (e.g. S300B12C150BL, V300B12C150BL)
Parameter
Efficiency
S300B12C150BL (enhanced efficiency)
V300B12C150BL (standard efficiency)
Ripple and noise
Output OVP setpoint
Dissipation, standby
Load regulation
Load current
Current limit
Short circuit current
Min
86.3
85.4
13.7
Typ
88.0
86.4
240
14.3
5.7
±0.02
14.4
14.4
Max
Unit
%
300
14.9
7
±0.2
12.5
16.9
16.9
mV
Volts
Watts
%
Amps
Amps
Amps
Notes
Nominal input; full load; 25°C
p-p; Nominal input; full load; 20MHz bandwidth
25°C; recycle input voltage or PC to restart (>100ms off)
1 A super powerful copycat private car. After seeing this picture, netizens can't help but sigh that this car is too cool. It can be driven on the road without a license. It can be called the coolest ...
Actel IGLOO series ultra-low power, small package FPGA downloadActel IGLOO Family Represents the True Alternative to ASICsand CPLDsfor Portable Applications5 μW static power in Flash*Freeze Mode4 X le...
People are born lazy. "Born in worry, die in comfort" and "the frog effect" always remind us to change our existing lives. The "frog effect" refers to throwing a frog into a boiling pot. The frog feel...
The last step in developing a BSP is to build a software development kit (SDK) and package the BSP into an .msi installation file so that it can be installed by others. An SDK is a set of header files...
After a busy night, I checked various articles and finally built a home multimedia server on BBB to realize DLNA playback on the local area network. The videos in the USB flash drive plugged into the ...
The core of a machine vision system is image acquisition and processing. All information comes from images, and image quality is crucial to the entire vision system. A good image can improve the st...[Details]
1. Equipment Overview
Shell-and-tube heat exchangers are a common heat exchange device used in chemical evaporation and heating equipment. Currently, the tubesheets of shell-and-tube heat exch...[Details]
introduction
Bluetooth technology is a short-range wireless communication technology designed to replace wired cables. It is a wireless communication technology standard developed by the SIG, ...[Details]
The mass production process of the new generation of cockpit platform has started, and the smart cockpit market has entered a new bonus cycle of technology iteration and platform upgrade.
...[Details]
The most significant feature of IPS panels is that both electrodes are located on the same surface, unlike other LCD panels, which have electrodes arranged on top and bottom surfaces in a three-dim...[Details]
Limited vocabulary recognition
According to the number of characters, words or short sentences in the vocabulary, it can be roughly divided into: less than 100 is small vocabulary; 100-1000 is...[Details]
Today's security industry has entered the era of massive networking. Many enterprises, especially financial institutions, have established multi-level video surveillance networking platforms. Lever...[Details]
On August 25th, SK Hynix announced that it has completed development and entered mass production of its 321-layer, 2Tb QLC NAND flash memory product. This achievement marks the world's first applic...[Details]
The automotive industry in 2025 is undergoing a thorough intelligent reshuffle.
Geely wants to make changes in the field of AI cockpits: in the future, there will be no traditional smart...[Details]
Since its invention in the mid-1940s, the microwave oven has evolved from a humble beginning to commercial use, entering homes in the 1960s and rapidly gaining popularity. Its basic functionality a...[Details]
In June 2014, the Ministry of Industry and Information Technology issued 4G FD-LTE licenses to China Unicom and China Telecom. Together with the 4G TD-LTE licenses issued to China Mobile, China Uni...[Details]
Reflow soldering is one of the most commonly used methods in electronics manufacturing, allowing for the soldering of large numbers of components in a relatively short time. However, any experience...[Details]
A multilevel inverter converts a DC signal into a multilevel staircase waveform. Instead of a straight positive-negative output waveform, the output waveform of a multilevel inverter alternates in ...[Details]
According to foreign media reports, Ford Motor has applied to the U.S. Patent and Social Security Office (USPTO) for a patent for a door anti-collision system that may be used in future Ford vehicl...[Details]
On August 20, Geely announced its focus on "One Cockpit". Through a unified AI OS architecture, a unified AI Agent, and a unified user ID, it will achieve an All-in-One AI cockpit, create the first...[Details]
Creative Market
京公网安备 11010802033920号
EEWORLD
