VIPAC Arrays are a highly flexible system of DC input, power building blocks that can be configured with as many as four user-definable outputs on a low-profile, coldplate chassis. Using Vicor’s configuration tool, designers are able to specify VIPAC Arrays with inputs of 24, 28, 48, 72, 110, 150, 300 or 375 Vdc and outputs from 2 to 54 Vdc at power levels up to 600 Watts per output. VIPAC Arrays are ideal for use in distributed and modular power systems where power density and reliable operation are critical. A current share option is available on single output models enabling them to be used in applications requiring high power / redundancy. Fully connectorized input and output terminations speed system installation and a versatile coldplate chassis simplifies thermal management.
Input Voltages:
- 24 Vdc
- 28 Vdc
- 48 Vdc
- 72 Vdc
- 110 Vdc
- 150 Vdc
- 300 Vdc
- 375 Vdc
Output Voltages:
- 2 – 54 Vdc
Output Power:
- Up to 750 W
Dimensions:
- See mechanical drawing on data sheet
- Single, dual, triple and quad outputs
- Fully connectorized input & output for simplified hook up
- Rugged, low profile, coldplate chassis
- High temperature capability
- Optional finned heat sinks available
To view individual family data sheets for available intermediate power levels, click on the links.
Note: All power values are in Watts
* The 375 Vdc Maxi module is also available in output voltages of 32 V and 54 V @ 600 W
- Component Power Solutions for Industrial High Voltage Applications
- Wide Range Trimming with Variable Loads
- High Efficiency Battery Charger Using Power Components
- AN: 201 – Using Modular DC-DC Converters to Meet European Standards for Railway Applications
- Adjustable Latching Output Over Current Circuit
- Hot Swap Capability Eliminates Down Time
- cURus – UL 60950-1, CSA 60950-1
- FcTÜVus – EN 60950-1, UL 60950-1, CSA 60950-1
- CE Mark – Low Voltage Directive (2006/95/EC) and RoHS Recast Directive (2011/65/EU)
- CB Certificate – IEC 60950-1
Note: 24, 28, 48, 72, 110, and 150 V input VIPAC Arrays are designed primarily for military COTS and industrial applications and do not carry safety agency approvals.
2-D VIPAC Array Drawings (Configuration „A“) | ||||
Drwg. Number | Description | Download | RoHS | |
24822 | Outline drawing for VIPAC Array Configuration „A“ | DXF | PDF | ||
3-D VIPAC Array Drawings Configuration „A“ (referring to drawing number 24822) | ||||
Using LugMate, 1 Output | STEP | 3D PDF | |||
Using LugMate, 2 Outputs | STEP | 3D PDF | |||
Using PlugMate, 1 Output | STEP | 3D PDF | |||
Using PlugMate, 2 Outputs | STEP | 3D PDF | |||
2-D VIPAC Array Drawings (Configuration „B“) | ||||
Drwg. Number | Description | Download | RoHS | |
24823 | Outline drawing for VIPAC Array Configuration „B“ | DXF | PDF | ||
3-D VIPAC Array Drawings Configuration „B“ (referring to drawing number 24823) | ||||
Using LugMate, 2 Outputs | STEP | 3D PDF | |||
Using LugMate, 3 Outputs | STEP | 3D PDF | |||
Using PlugMate, 2 Outputs | STEP | 3D PDF | |||
Using PlugMate, 3 Outputs | STEP | 3D PDF | |||
2-D VIPAC Array Drawings (Configuration „C“) | ||||
Drwg. Number | Description | Download | RoHS | |
24824 | Outline drawing for VIPAC Array Configuration „C“ | DXF | PDF | ||
3-D VIPAC Array Drawings Configuration „C“ (referring to drawing number 24824) | ||||
Using LugMate, 2 Outputs | STEP | 3D PDF | |||
Using LugMate, 3 Outputs | STEP | 3D PDF | |||
Using PlugMate, 2 Outputs | STEP | 3D PDF | |||
Using PlugMate, 3 Outputs | STEP | 3D PDF | |||
2-D VIPAC Array Drawings (Configuration „D“) | ||||
Drwg. Number | Description | Download | RoHS | |
24825 | Outline drawing for VIPAC Array Configuration „D“ | DXF | PDF | ||
3-D VIPAC Array Drawings Configuration „D“ (referring to drawing number 24825) | ||||
Using LugMate, 1 Output | STEP | 3D PDF | |||
Using PlugMate, 1 Output | STEP | 3D PDF | |||
2-D VIPAC Array Drawings (Configuration „E“) | ||||
Drwg. Number | Description | Download | RoHS | |
24826 | Outline drawing for VIPAC Array Configuration „E“ | DXF | PDF | ||
3-D VIPAC Array Drawings Configuration „E“ (referring to drawing number 24826) | ||||
Using LugMate, 2 Outputs | STEP | 3D PDF | |||
Using LugMate, 3 Outputs | STEP | 3D PDF | |||
Using PlugMate, 2 Outputs | STEP | 3D PDF | |||
Using PlugMate, 3 Outputs | STEP | 3D PDF | |||
2-D VIPAC Array Drawings (Configuration „F“) | ||||
Drwg. Number | Description | Download | RoHS | |
24827 | Outline drawing for VIPAC Array Configuration „F“ | DXF | PDF | ||
3-D VIPAC Array Drawings Configuration „F“ (referring to drawing number 24827) | ||||
Using LugMate, 2 Outputs | STEP | 3D PDF | |||
Using LugMate, 3 Outputs | STEP | 3D PDF | |||
Using LugMate, 4 Outputs | STEP | 3D PDF | |||
Using PlugMate, 2 Outputs | STEP | 3D PDF | |||
Using PlugMate, 3 Outputs | STEP | 3D PDF | |||
Using PlugMate, 4 Outputs | STEP | 3D PDF | |||
2-D VIPAC Array Drawings (Configuration „G“) | ||||
Drwg. Number | Description | Download | RoHS | |
25335 | Outline drawing for VIPAC Array Configuration „G“ | DXF | PDF | ||
3-D VIPAC Array Drawings Configuration „G“ (referring to drawing number 25335) | ||||
Using LugMate, 1 Output | STEP | 3D PDF | |||
Using PlugMate, 1 Output | STEP | 3D PDF | |||
2-D VIPAC Array Drawings (Configuration „H“) | ||||
Drwg. Number | Description | Download | RoHS | |
25336 | Outline drawing for VIPAC Array Configuration „H“ | DXF | PDF | ||
3-D VIPAC Array Drawings Configuration „H“ (referring to drawing number 25336) | ||||
Using LugMate, 1 Output | STEP | 3D PDF | |||
Using LugMate, 2 Outputs | STEP | 3D PDF | |||
Using PlugMate, 1 Output | STEP | 3D PDF | |||
Using PlugMate, 2 Outputs | STEP | 3D PDF |
- FIAM – Filter Input Attenuator Module – DC input, front-end module providing transient protection, inrush current limiting and EMI filtering for Maxi, Mini and Mico DC-DC converters.
- M-FIAM – Filter Input Attenuator Module – DC input, front-end module providing transient protection, inrush current limiting and EMI filtering for Maxi, Mini, and Micro DC-DC converters.
M-FIAM Model | Module Compatibility | Input Voltage | Output Current | Transient Compliance | Data Sheet | ||||||||||
M-FIAM3 | 300 Vin Maxi, Mini, Micro | 180 – 375 Vdc | 3 Amps | MIL-STD-704E/F | |||||||||||
M-FIAM5B | 24 / 28 Vin Maxi, Mini, Micro | 14 – 36 Vdc | 20 Amps | MIL-STD-704E/F | |||||||||||
M-FIAM9 | 24 / 28 Vin Maxi, Mini, Micro | 10 – 36 Vdc | 18 Amps | MIL-STD-704A-F MIL-STD-1275A/B/D |
- MicroRAM – Output Ripple Attenuator Module – The MicoRAM conbines both active and passive filtering to achieve greater than 40 dB of noise attenuation from over a range of 3 to 30 Vdc.
- QPO Family Output Filters – QPO filters use active filtering to reduce power supply ripple and noise in a 1.0″ x 1.0″ (25 x 25 mm) surface mount package.
Description | P/N | RoHS | Technical
Drawing |
|||||
Input Connnector Kit | 24828 |
Longitudinal Heat Sinks | |||||||||
All Heat Sinks are RoHS Compatible | |||||||||
Description | Model Type | P/N | 3D Model Drawings | Technical
Drawing |
|||||
Dual Mini | VA-A | 32161 | STEP | 3D PDF | ||||||
Single Mini / Dual Micro | VA-B | 32161 | STEP | 3D PDF | ||||||
Triple Micro | VA-C | 32161 | STEP | 3D PDF | ||||||
Single Maxi | VA-D | 32161 | STEP | 3D PDF | ||||||
Dual Mini / Single Micro | VA-E | 32176 | STEP | 3D PDF | ||||||
Quad Micro | VA-F | 32176 | STEP | 3D PDF | ||||||
Single Mini | VA-G | 32177 | STEP | 3D PDF | ||||||
Dual Micro | VA-G | 32177 | STEP | 3D PDF |
Transverse Heat Sinks | |||||||||
All Heat Sinks are RoHS Compatible | |||||||||
Description | Model Type | P/N | 3D Model Drawings | Technical
Drawing |
|||||
Dual Mini | VA-A | 32178 | STEP | 3D PDF | ||||||
Single Mini / Dual Micro | VA-B | 32178 | STEP | 3D PDF | ||||||
Triple Micro | VA-C | 32178 | STEP | 3D PDF | ||||||
Single Maxi | VA-D | 32178 | STEP | 3D PDF | ||||||
Dual Mini / Single Micro | VA-E | 32179 | STEP | 3D PDF | ||||||
Quad Micro | VA-F | 32179 | STEP | 3D PDF | ||||||
Single Mini | VA-G | 32180 | STEP | 3D PDF | ||||||
Dual Micro | VA-G | 32180 | STEP | 3D PDF |