VICOR VI-B61-IU-BM, VI-B61-EU-BM, VI-B61-CU-BM, VI-B54-MU-BM, VI-B54-EU-BM Datasheet

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12
1-800-735-6200
Typical Model:
VI-261-EU-BM
Input: 300Vdc Output: 12Vdc at 200W
1. Available in 300V input only.
SlimMod™, high power density, flangeless packages and FinMods™, featuring integral finned heatsinks.
SlimMod: Add the suffix -S to the end of the BatMod part number. FinMods: Add the suffix -F1 for .25"H Longitudinal Fin; F2 for .5"H Longitudinal Fin
-F3 for .25"H Transverse Fin; F4 for .5"H Transverse Fin
BatMod Specifications
(typical TBP= 25°C, nominal line, 75% load, unless otherwise specified)
Parameter Remarks
Nominal Input Voltage 48Vdc, 150Vdc, 42-60V, 100-200V,
300Vdc 200-400V
Output Current 0-14.5A 12V battery system
(Refer to Safe Operating 0-7.25A 24V battery system Curves below) 0-3.6A 48V battery system
Current Control Input 1V to 5V Zero to max. current Current Monitor Output 1V to 5V Zero to full load Voltage Control Input 0V to 2.5V Zero to FS output Output Voltage Setpoint 15V, 30V, 60V +/-1% 12V, 24V, 48V Trimmable +10%, -25% Output Respectively Dynamic Characteristics V Mode: 300 µsec typ. V
NOM
for 50-100%
I Mode: 250 µsec typ. load changes
Operating Temp./Storage Temp.
-10°C to +85°C, -20°C to +100°C E-Grade
-25°C to +85°C, -40°C to +100°C C-Grade
-40°C to +85°C, -55°C to +100°C I-Grade
-55°C to +85°C, -65°C to +100°C M-Grade
Dielectric Withstand
Input to Output 3,000V
RMS
Output to Baseplate 500V
RMS
Input to Baseplate 1,500V
RMS
Features
Programmable Output Current Booster Versions AvailableSize: 4.6" x 2.4" x 0.5"
(116,8 x 61,0 x 12,7)
UL, CSA, TÜVCompatible with All Major
Battery Types
Inputs: 48, 150, 300VdcOutputs: 12, 24, 48Vdc Nom.Analog Current MonitorAnalog Overvoltage AdjustCE Marked
BatMod™
Battery Charger Current Source Modules
Product Highlights
The BatMod combines Vicor’s industry standard package with the flexibility of a power converter whose output voltage and output current may be independently set. BatMod’s allow the user to independently program a constant output current and a maximum float voltage. The float voltage is the point at which the BatMod transitions from constant current to constant voltage. These features make the BatMod an ideal candidate for battery charging and other applications which require a controlled current source.
The BatMod is also available in booster versions that enable the designer to create systems capable of multiple kilowatts of output power.
With its wide range of input options, the BatMod is compatible with all major battery types. This new current output module finds application in systems where easily programmable current is of primary importance.
Consult factory for availability of input/output voltage ranges not shown.
Module
2 = Driver B = Booster
Part Numbering
Input Voltage
Nominal Range
3 = 48V 42 - 60V 5 = 150V 100 -200V 6 = 300V 200 -400V
Product Grade
E = -10°C to +85°C C = -25°C to +85°C
I = -40°C to +85°C
M = -55°C to +85°C
Output Voltage
Nominal Range
1 = 12V (11.25-16.5V) 3 = 24V1(22.5-33.0V) 4 = 48V (45.0-66.0V)
2
4
6
8
10
12
14
16
246
8
10 12
14
16
Safe Operating Area
High Program
Exceeded
Amps
Volts
4
8
12
16
20
24
28
32
123
4
56
7
8
Safe Operating Area
High Program
Exceeded
Amps
Volts
8
16
24
32
40
48
56
64
0.511.5
2
2.5 3
3.5
4
Safe Operating Area
High Program
Exceeded
Current Exceeded
Amps
Volts
36
72
18
12V Battery System
24V Battery System
48V Battery System
13.8V
27.6V
55.2V
Power
Exceeded
Power
Exceeded
Power
Exceeded
16.5V
14.5A
33.0V
7.25A
3.6A
66.0V
11.25V
22.5V
45.0V
6.9V*
13.8V*
27.6V*
*Maximum recommended battery discharge.
Maximum Voltage Setpoint
Minimum Voltage Setpoint
Minimum Operating Voltage
Current Exceeded
Maximum Voltage Setpoint
Minimum Voltage Setpoint
Minimum Operating Voltage
Current Exceeded
Maximum Voltage Setpoint
Minimum Voltage Setpoint
Minimum Operating Voltage
Safe Operating Conditions
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