Vicor’s Maxi, Mini, and Micro series DC-DC converter modules use advanced power processing, control, and packaging technologies to provide the performance, flexibility, and ruggedness expected in a Military COTS product. High frequency ZCS/ZVS switching, advanced power semiconductor packaging, and thermal management provide high-power density with low noise and high efficiency.
Fully encapsulated, Maxi, Mini and Micro series DC-DC converters utilize a proprietary spin fill process that assures complete, void free encapsulation making them suitable for the most harsh environments. Two grades (H & M) are available with temperatures to -55°C operating and -65°C storage. H & M-Grade modules are qualified to the stringent environmental tests of MIL-STD-810 and MIL-STD-202 and undergo 100% Environment Stress Screening.
- 24 V (18 – 36 V)
- 28 V (9 – 36 V)
- 48 V (36 – 75 V)
- 72 V (43 – 110 V)
- 110 V (66 – 154 V)
- 150 V (100 – 200 V)
- 300 V (180 – 375 V)
- 375 V (250 – 425 V)
- 2 – 54 Vdc
- Maxi: 160 – 600 W
- Mini: 100 – 300 W
- Micro: 50 – 150 W
- Up to 90%
- Maxi (full brick):4.6″ x 2.2″ x 0.5″ (117 x 55,9 x 12,7 mm)
- Mini (half brick):2.28″ x 2.2″ x 0.5″ (57,9 x 55,9 x 12,7 mm)
- Micro (quarter brick):2.28″ x 1.45″ x 0.5″ (57,9 x 36,8 x 12,7 mm)
- Up to 120 W/in3
- Low noise zero-current switching and zero-voltage switching technology
- Single-wire paralleling
- Output voltage adjusts from 10 – 110%
- Logic enable / disable
- Input undervoltage lockout
- Output overvoltage Protection
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
- Thermal Considerations: Assuring Density DC-DC Converter Modules
- Component Power Solutions for Industrial High Voltage Applications
- Wide Range Trimming with Variable Loads
- High Efficiency Battery Charger Using Power Components
- Using Modular DC-DC Converters to Meet European Standards for Railway Applications
- Adjustable Latching Output Over Current Circuit
- Hot Swap Capability Eliminates Downtime
- Converter PR Pin Facilitates Parallel Operation forPerformance of Maxi, Mini and Micro High- Power Expansion or Redundancy
- Soldering Methods and Procedures for Vicor Power Modules
- Constant Current Control for DC-DC Converters
- Creating High Voltage Outputs
Download Entire Manual
Download Individual Chapters
- High Density DC-DC Converter Technology
- Control Pin Functions and Applications
- Design Requirements
- EMC Considerations
- Current Sharing in Power Arrays
- Thermal Performance Information
Accessory Modules
- Autoranging Rectifier Module (ARM)
- Filter / Autoranging Rectifier Module (FARM)
- Modular AC Front-end System (ENMod)
- High Boost HAM
- Filter Input Attenuator Module (FIAM)
- Output Ripple Attenuator Module (MicroRAM)
Recommended Soldering Methods
Mounting Options
- cURus – UL 60950-1, CSA 60950-1
- cTÜVus – EN 60950-1, UL 60950-1, CSA 60950-1
- CE Marked – Low Voltage Directive (2006/95/EC)
- CB Certificate – IEC 60950-1:2001
2-D Maxi-size Drawings | |||
Drwg. Number | Description | Download | RoHS |
25008 | Outline drawing for Maxi DC-DC Converter | DXF | PDF | |
3-D Maxi-size Module (referring to drawing number 25008) | |||
Maxi, short tin / lead pin, slotted baseplate | STEP | 3D PDF | ||
Maxi, short tin / lead pin, threaded baseplate | STEP | 3D PDF | ||
Maxi, short tin / lead pin, through-hole baseplate | STEP | 3D PDF | ||
Maxi, long tin / lead pin, slotted baseplate | STEP | 3D PDF | ||
Maxi, long tin / lead pin, threaded baseplate | STEP | 3D PDF | ||
Maxi, long tin / lead pin, through-hole baseplate | STEP | 3D PDF | ||
Maxi, short ModuMate, slotted baseplate | STEP | 3D PDF | ||
Maxi, short ModuMate, threaded baseplate | STEP | 3D PDF | ||
Maxi, short ModuMate, through-hole baseplate | STEP | 3D PDF | ||
Maxi, long ModuMate, slotted baseplate | STEP | 3D PDF | ||
Maxi, long ModuMate, threaded baseplate | STEP | 3D PDF | ||
Maxi, long ModuMate, through-hole baseplate | STEP | 3D PDF | ||
Maxi, short gold pin (RoHS), slotted baseplate | STEP | 3D PDF | ||
Maxi, short gold pin (RoHS), threaded baseplate | STEP | 3D PDF | ||
Maxi, short gold pin (RoHS), through-hole baseplate | STEP | 3D PDF | ||
Maxi, long gold pin (RoHS), slotted baseplate | STEP | 3D PDF | ||
Maxi, long gold pin (RoHS), threaded baseplate | STEP | 3D PDF | ||
Maxi, long gold pin (RoHS), through-hole baseplate | STEP | 3D PDF | ||
2-D Mini-size Drawings | |||
Drwg. Number | Description | Download | RoHS |
25006 | Outline drawing for Mini DC-DC Converter | DXF | PDF | |
3-D Mini-size Module (referring to drawing number 25006) | |||
Mini, short tin / lead pin, slotted baseplate | STEP | 3D PDF | ||
Mini, short tin / lead pin, threaded baseplate | STEP | 3D PDF | ||
Mini, short tin / lead pin, through-hole baseplate | STEP | 3D PDF | ||
Mini, long tin / lead pin, slotted baseplate | STEP | 3D PDF | ||
Mini, long tin / lead pin, threaded baseplate | STEP | 3D PDF | ||
Mini, long tin / lead pin, through-hole baseplate | STEP | 3D PDF | ||
Mini, short ModuMate, slotted baseplate | STEP | 3D PDF | ||
Mini, short ModuMate, threaded baseplate | STEP | 3D PDF | ||
Mini, short ModuMate, through-hole baseplate | STEP | 3D PDF | ||
Mini, long ModuMate, slotted baseplate | STEP | 3D PDF | ||
Mini, long ModuMate, threaded baseplate | STEP | 3D PDF | ||
Mini, long ModuMate, through-hole baseplate | STEP | 3D PDF | ||
Mini, short gold pin (RoHS), slotted baseplate | STEP | 3D PDF | ||
Mini, short gold pin (RoHS), threaded baseplate | STEP | 3D PDF | ||
Mini, short gold pin (RoHS), through-hole baseplate | STEP | 3D PDF | ||
Mini, long gold pin (RoHS), slotted baseplate | STEP | 3D PDF | ||
Mini, long gold pin (RoHS), threaded baseplate | STEP | 3D PDF | ||
Mini, long gold pin (RoHS), through-hole baseplate | STEP | 3D PDF | ||
2-D Micro-size Drawings | |||
Drwg. Number | Description | Download | RoHS |
25004 | Outline drawing for Micro DC-DC Converter | DXF | PDF | |
3-D Micro-size Module (referring to drawing number 25004) | |||
Micro, short tin / lead pin, slotted baseplate | STEP | 3D PDF | ||
Micro, short tin / lead pin, threaded baseplate | STEP | 3D PDF | ||
Micro, short tin / lead pin, through-hole baseplate | STEP | 3D PDF | ||
Micro, long tin / lead pin, slotted baseplate | STEP | 3D PDF | ||
Micro, long tin / lead pin, threaded baseplate | STEP | 3D PDF | ||
Micro, long tin / lead pin, through-hole baseplate | STEP | 3D PDF | ||
Micro, short ModuMate, slotted baseplate | STEP | 3D PDF | ||
Micro, short ModuMate, threaded baseplate | STEP | 3D PDF | ||
Micro, short ModuMate, through-hole baseplate | STEP | 3D PDF | ||
Micro, long ModuMate, slotted baseplate | STEP | 3D PDF | ||
Micro, long ModuMate, threaded baseplate | STEP | 3D PDF | ||
Micro, long ModuMate, through-hole baseplate | STEP | 3D PDF | ||
Micro, short gold pin (RoHS), slotted baseplate | STEP | 3D PDF | ||
Micro, short gold pin (RoHS), threaded baseplate | STEP | 3D PDF | ||
Micro, short gold pin (RoHS), through-hole baseplate | STEP | 3D PDF | ||
Micro, long gold pin (RoHS), slotted baseplate | STEP | 3D PDF | ||
Micro, long gold pin (RoHS), threaded baseplate | STEP | 3D PDF | ||
Micro, long gold pin (RoHS), through-hole baseplate | STEP | 3D PDF |
These calculator programs allow users to determine values that help with accessory component selection for power system design.
Trim Resistor Calculators
- Trim resistors for fixed output voltage trimming
- Trim resistors for variable output voltage trimming
- Trim resistors for setting float voltage and charge current in battery chargers designed with BatMod modules
Thermal Calculators
This is a downloadable Excel file.
- 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.
- MicroRAM – Ripple Atteuator Module– TheMicroRAM combines both active and passive filtering to achieve greater than 40 dB of noise attenuation from over a range of 3 to 30 Vdc.
Description | P/N | Capacitance | Voltage Rating | RoHS | Technical Drawing | ||||||
SMT Polymer | 23484-337 | 330 µF | 6.3 V | PDF | DXF | |||||||
SMT Polymer | 23484-477 | 470 µF | 6.3 V | PDF | DXF | |||||||
SMT Polymer | 23579-227 | 220 µF | 10 V | PDF | DXF | |||||||
Al-El (10 mm x 16 mm) | 30468 | 270 µF | 25 V | PDF | DXF | |||||||
Al-El (16 mm x 15 mm) | 33985 | 820 µF | 25 V | PDF | DXF | |||||||
Al-El (10 mm x 16 mm) | 30788 | 68 µF | 63 V | PDF | DXF | |||||||
Al-El (10 mm x 16 mm) | 30787 | 220 µF | 63 V | PDF | DXF | |||||||
Al-El (12 mm x 25 mm) | 30799 | 10 µF | 450 V | PDF | DXF | |||||||
Tantalum | 30800 | 270 µF | 10 V | PDF | DXF | |||||||
Tantalum | 30506 | 120 µF | 20 V | PDF | DXF | |||||||
Tantalum | 30507 | 68 µF | 30 V | PDF | DXF | |||||||
Tantalum | 30259 | 27 µF | 50 V | PDF | DXF | |||||||
Y-Cap Surface Mount | 30802 | 1,500 pF | 250 V | PDF | DXF | |||||||
Y-Cap Surface Mount | 25283 | 4,700 pF | 250 Vac | PDF | DXF | |||||||
Y-Cap | 00770 | 1,500 pF | 250 Vac | PDF | DXF | |||||||
Y-Cap | 01000 | 4,700 pF | 250 Vac | PDF | DXF | |||||||
Y-Cap | 33643 | 0.01 µF | 250 V | PDF | DXF | |||||||
Y-Cap | 03093 | 0.022 µF | 250 V | PDF | DXF | |||||||
Multilayer Film Cap | 34610 | 0.61 µF | 250 V | PDF | DXF |
Description | P/N | RoHS | Technical Drawing | |||||||
Maxi Shield for Slotted Baseplate | 30199 | PDF | DXF | ||||||||
Mini Shield for Slotted Baseplate | 30198 | PDF | DXF | ||||||||
Micro Shield for Slotted Baseplate | 30141 | PDF | DXF | ||||||||
Maxi Shield for Threaded or Through-Hole Baseplate | 30142 | PDF | DXF | ||||||||
Mini Shield for Threaded or Through-Hole Baseplate | 30180 | PDF | DXF | ||||||||
Micro Shield for Threaded or Through-Hole Baseplate | 30143 | PDF | DXF |
Common Mode | ||||||||||||
Description | P/N | Inductance | Rated Current | DCR(max) | RoHS | Technical Drawing | ||||||
Common-mode input | 31743 | 1,000 µH | 12 A | 6.5 mΩ | PDF | DXF | |||||||
Common-mode input | 32006 | 1,300 µH | 13 A | 14 mΩ | PDF | DXF | |||||||
Common-mode input | 31943 | 2,163 µH | 1 A | 42 mΩ | PDF | DXF | |||||||
Common-mode input | 31742 | 3,000 µH | 7 A | 18 mΩ | PDF | DXF | |||||||
Common-mode output | 36-00029-06 | 70 µH | 80 A | 0.4 mΩ | ||||||||
Common-mode output | 36-00029-07 | 110 µH | 60 A | 0.6 mΩ | ||||||||
Common-mode output | 36-00029-01 | 335 µH | 40 A | 2 mΩ | PDF | DXF | |||||||
Common-mode output | 36-00037 | 420 µH | 20 A | 5 mΩ | ||||||||
Common-mode output | 36-00029-04 | 1,270 µH | 10 A | 10 mΩ | PDF | DXF | |||||||
Differential Mode | ||||||||||||
Differential-mode input | 33206 | 22 µH | 12 A | 5.5 mΩ | PDF | DXF | |||||||
Differential-mode input | 36-00036 | 1,000 µH | 4 A | 250 mΩ | ||||||||
Differential-mode output | 30268 | 0.2 µH | 40 A | – | PDF | DXF | |||||||
Differential-mode output | 32012 | 27 µH | 12 A | – | ||||||||
Differential-mode output | 32497 | 1.8 µH | 10 A | – | PDF | DXF | |||||||
Output-sense compensation | 36-00030 | 1,000 µH | – | – | ||||||||
Surface Mount | Download Surface-Mount Inductor Data Sheet | |||||||||||
Surface-mount inductor | 31499-16 | 0.37 µH | 100 A | 0.23 mΩ | PDF | DXF | |||||||
Surface-mount inductor | 31499-15 | 0.66 µH | 75 A | 0.42 mΩ | PDF | DXF | |||||||
Surface-mount inductor | 31499-14 | 1.03 µH | 60 A | 0.58 mΩ | PDF | DXF | |||||||
Surface-mount inductor | 31499-13 | 1.48 µH | 50 A | 0.82 mΩ | PDF | DXF | |||||||
Surface-mount inductor | 31499-12 | 2.62 µH | 37.5 A | 1.43 mΩ | PDF | DXF | |||||||
Surface-mount inductor | 31499-10 | 5.90 µH | 25 A | 3.23 mΩ | PDF | DXF | |||||||
Surface-mount inductor | 31499-08 | 13.2 µH | 16.6 A | 7.56 mΩ | PDF | DXF | |||||||
Surface-mount inductor | 31499-05 | 47.4 µH | 8.8 A | 29.4 mΩ | PDF | DXF | |||||||
Surface-mount inductor | 31499-03 | 133 µH | 5.6 A | 81.2 mΩ | PDF | DXF | |||||||
Surface-mount inductor | 31499-02 | 243 µH | 3.9 A | 156 mΩ | PDF | DXF |
SurfMates – Surface-mount Sockets | All SurfMates are RoHS Compatible | ||||||||||||
Board Thickness | Mounting | Assembly Drawing | Converter Pin Style* | Module Style | InputP/N** | Output P/N** | 5 In/Out Sets P/N | Technical Drawing | |||||
All | surface | PDF|DXF | F | Maxi | 22100 | 22101 | 16017 | PDF | DXF | |||||
All | surface | PDF|DXF | F | Mini | 22100 | 22102 | 16021 | PDF | DXF | |||||
All | surface | PDF|DXF | F | Micro | 22103 | 22104 | 16025 | ||||||
Example of SurfMate Application | |||||||||||||
* F = Short Gold (RoHS), G = Long Gold (RoHS)** For individual input / output purchases, a 35-piece minimum (and multiples) applies to Maxis / Minis and a 40-piece minimum (and multiples) for Micros. | |||||||||||||
InMates – Through-hole | All InMates are RoHS Compatible | ||||||||||||
All sockets are supplied on InMate headers to assure proper alignment during installation. | |||||||||||||
Board Thickness (nominal) | Board Thickness (min / max) | Mounting | Converter Pin Style* | Module Style | Input P/N** | Output P/N** | 5 In/Out Sets P/N | Technical Drawing | |||||
0.063″ | 0.055″ / 0.071″ | inboard | F | Maxi | 18374 | 18382 | 18362 | PDF | DXF | |||||
0.063″ | 0.055″ / 0.071″ | inboard | F | Mini | 18374 | 18384 | 18366 | PDF | DXF | |||||
0.063″ | 0.055″ / 0.071″ | inboard | F | Micro | 18376 | 18386 | 18370 | PDF | DXF | |||||
0.063″ | 0.055″ / 0.071″ | onboard | G | Maxi | 18378 | 18388 | 18364 | PDF | DXF | |||||
0.063″ | 0.055″ / 0.071″ | onboard | G | Mini | 18378 | 18390 | 18368 | PDF | DXF | |||||
0.063″ | 0.055″ / 0.071″ | onboard | G | Micro | 18380 | 18392 | 18372 | PDF | DXF | |||||
0.094″ | 0.084″ / 0.104″ | inboard | F | Maxi | 18375 | 18383 | 18363 | ||||||
0.094″ | 0.084″ / 0.104″ | inboard | F | Mini | 18375 | 18385 | 18367 | ||||||
0.094″ | 0.084″ / 0.104″ | inboard | F | Micro | 18377 | 18387 | 18371 | ||||||
0.094″ | 0.084″ / 0.104″ | onboard | G | Maxi | 18379 | 18389 | 18365 | ||||||
0.094″ | 0.084″ / 0.104″ | onboard | G | Mini | 18379 | 18391 | 18369 | ||||||
0.094″ | 0.084″ / 0.104″ | onboard | G | Micro | 18381 | 18393 | 18373 | ||||||
0.125″ | 0.1125″ / 0.1375″ | onboard | G | Maxi | 21539 | 21543 | 21510 | ||||||
0.125″ | 0.1125″ / 0.1375″ | onboard | G | Mini | 21539 | 21544 | 21511 | ||||||
0.125″ | 0.1125″ / 0.1375″ | onboard | G | Micro | 21540 | 21545 | 21512 | ||||||
Example of Inboard Mounting Options Example of Onboard Mounting Options | |||||||||||||
* F = Short Gold (RoHS), G = Long Gold (RoHS)** For individual input / output purchases, a 35-piece minimum (and multiples) applies to Maxis / Minis and
a 40-piece minimum (and multiples) for Micros. |
|||||||||||||
Module Exchange Tools |
|||||||||||||
Description | Module Style | P/N | Technical Drawing | ||||||||||
Used to facilitate the proper extraction of Maxi modules from InMate or SurfMate sockets. | Maxi | 22827 | – | ||||||||||
Used to facilitate the proper extraction of Mini modules from InMate or SurfMate sockets. | Mini | 22828 | – | ||||||||||
Used to facilitate the proper extraction of Micro modules from InMate or SurfMate sockets. | Micro | 22829 | – |
Standoff Kits for Solder Mounted Modules | All Standoffs are RoHS Compatible | |||||||||||||||
Board Thickness | Mounting | Converter Pin Style | Baseplate | Heat Sink | Kit P/N* | Bag P/N** | Technical Drawing | |||||||||
0.063″ | inboard | F, Blank | slotted | thru-hole | 18150 | 19126 | PDF | DXF | |||||||||
0.063″ | inboard | F, Blank | slotted | threaded | 18151 | 19127 | PDF | DXF | |||||||||
0.063″ | inboard | F, Blank | thru-hole | thru-hole | 18146 | 19122 | PDF | DXF | |||||||||
0.063″ | inboard | F, Blank | thru-hole | threaded | 18147 | 19123 | PDF | DXF | |||||||||
0.063″ | inboard | F, Blank | threaded | thru-hole | 18146 | 19122 | PDF | DXF | |||||||||
0.063″ | onboard | G, L | slotted | thru-hole | 18156 | 19132 | PDF | DXF | |||||||||
0.063″ | onboard | G, L | slotted | threaded | 18157 | 19133 | PDF | DXF | |||||||||
0.063″ | onboard | G, L | thru-hole | thru-hole | 18150 | 19126 | PDF | DXF | |||||||||
0.063″ | onboard | G, L | thru-hole | threaded | 18152 | 19128 | PDF | DXF | |||||||||
0.063″ | onboard | G, L | threaded | thru-hole | 18150 | 19126 | PDF | DXF | |||||||||
0.093″ | inboard | G, L | slotted | thru-hole | 18150 | 19126 | PDF | DXF | |||||||||
0.093 “ | inboard | G, L | slotted | threaded | 18151 | 19127 | PDF | DXF | |||||||||
0.093 “ | inboard | G, L | thru-hole | thru-hole | 18146 | 19122 | PDF | DXF | |||||||||
0.093 “ | inboard | G, L | thru-hole | threaded | 18147> | 19123 | PDF | DXF | |||||||||
0.093 “ | inboard | G, L | threaded | thru-hole | 18146 | 19122 | PDF | DXF | |||||||||
* Kits include six (6) standoffs and screws. Mini and Micro modules require a minimum of four standoffs.** Bags of one hundred (100) do not include screws; #4-40 thread hardware required. | ||||||||||||||||
Design Information for Solder Mounting | ||||||||||||||||
Standoff Kits for InMate Mounted Modules | All Standoffs are RoHS Compatible | |||||||||||||||
Board Thickness | Mounting | Converter Pin Style | Baseplate | Heat Sink | Kit P/N* | Bag P/N** | Technical Drawing | |||||||||
0.063″ | inboard | S | slotted | thru-hole | 18153 | 19129 | PDF | DXF | |||||||||
0.063″ | inboard | S | slotted | threaded | 18154 | 19130 | PDF | DXF | |||||||||
0.063″ | inboard | S | thru-hole | thru-hole | 18148 | 19124 | PDF | DXF | |||||||||
0.063″ | inboard | S | thru-hole | threaded | 18149 | 19125 | PDF | DXF | |||||||||
0.063″ | inboard | S | threaded | thru-hole | 18148 | 19124 | PDF | DXF | |||||||||
0.063″ | onboard | N | slotted | thru-hole | 18158 | 19134 | PDF | DXF | |||||||||
0.063″ | onboard | N | slotted | threaded | 18159 | 19135 | PDF | DXF | |||||||||
0.063″ | onboard | N | thru-hole | thru-hole | 18153 | 19129 | PDF | DXF | |||||||||
0.063″ | onboard | N | thru-hole | threaded | 18155 | 19131 | PDF | DXF | |||||||||
0.063″ | onboard | N | threaded | thru-hole | 18153 | 19129 | PDF | DXF | |||||||||
0.093″ | inboard | S | slotted | thru-hole | 18153 | 19129 | PDF | DXF | |||||||||
0.093″ | inboard | S | slotted | threaded | 18154 | 19130 | PDF | DXF | |||||||||
0.093″ | inboard | S | thru-hole | thru-hole | 18148 | 19124 | PDF | DXF | |||||||||
0.093″ | inboard | S | thru-hole | threaded | 18149 | 19125 | PDF | DXF | |||||||||
0.093″ | inboard | S | threaded | thru-hole | 18148 | 19124 | PDF | DXF | |||||||||
0.093″ | onboard | N | slotted | thru-hole | 18156 | 19132 | PDF | DXF | |||||||||
0.093″ | onboard | N | slotted | threaded | 18157 | 19133 | PDF | DXF | |||||||||
0.093″ | onboard | N | thru-hole | thru-hole | 18150 | 19126 | PDF | DXF | |||||||||
0.093″ | onboard | N | thru-hole | threaded | 18152 | 19128 | PDF | DXF | |||||||||
0.093″ | onboard | N | threaded | thru-hole | 18150 | 19126 | PDF | DXF | |||||||||
0.125″ | onboard | N | slotted | thru-hole | 24054 | 19132 | PDF | DXF | |||||||||
0.125″ | onboard | N | slotted | threaded | 18157 | 19133 | PDF | DXF | |||||||||
0.125″ | onboard | N | thru-hole | thru-hole | 24056 | 19126 | PDF | DXF | |||||||||
0.125″ | onboard | N | thru-hole | threaded | 18152 | 19128 | PDF | DXF | |||||||||
0.125″ | onboard | N | threaded | thru-hole | 24056 | 19126 | PDF | DXF | |||||||||
* Kits include six (6) standoffs and screws. Mini and Micro modules require a minimum of four standoffs.** Bags of one hundred (100) do not include screws; #4-40 thread hardware required. | ||||||||||||||||
Design Information for InMate Mounting | ||||||||||||||||
Standoff Kits for SurfMate Mounted Modules | All Standoffs are RoHS Compatible | |||||||||||||||
Board Thickness | Mounting | Converter Pin Style | Baseplate | Heat Sink | Kit P/N* | Bag P/N** | Technical Drawing | |||||||||
All | surface | S | slotted | thru-hole | 20178 | 20188 | PDF | DXF | |||||||||
All | surface | F | slotted | threaded | 20179 | 20189 | PDF | DXF | |||||||||
All | surface | F | thru-hole | thru-hole | 20176 | 20186 | PDF | DXF | |||||||||
All | surface | F | thru-hole | threaded | 20177 | 20187 | PDF | DXF | |||||||||
All | surface | F | threaded | thru-hole | 20176 | 20186 | PDF | DXF | |||||||||
* Kits include six (6) standoffs and screws. Mini and Micro modules require a minimum of four standoffs.** Bags of one hundred (100) do not include screws; #4-40 thread hardware required. | ||||||||||||||||
Design Information for Surface Mounting |
Heat Sinks used with Vicor’s Maxi-Size Modules (not for VI-200 modules) | |||||||||||
Description | P/N | RoHS | Technical Drawing | ||||||||
0.40″ longitudinal fins, threaded mounting* | 30482 | PDF |DXF | |||||||||
0.90″ longitudinal fins, threaded mounting* | 30188 | PDF |DXF | |||||||||
0.40″ longitudinal fins, thru-hole mounting | 30718 | PDF |DXF | |||||||||
0.90″ longitudinal fins, thru-hole mounting | 30181 | PDF |DXF | |||||||||
0.40″ transverse fins, threaded mounting* | 30778 | PDF |DXF | |||||||||
0.90″ transverse fins, threaded mounting* | 30196 | PDF |DXF | |||||||||
0.40″ transverse fins, thru-hole mounting | 30720 | PDF |DXF | |||||||||
0.90″ transverse fins, thru-hole mounting | 30723 | PDF |DXF | |||||||||
* NOT for use with threaded baseplates | |||||||||||
Heat Sink Thermal Data and Calculator | |||||||||||
Heat Sinks used with Vicor’s Mini-Size Modules (not for VI-J00 modules) | |||||||||||
Description | P/N | RoHS | Technical Drawing | ||||||||
0.40″ longitudinal fins, threaded mounting* | 32188 | PDF |DXF | |||||||||
0.90″ longitudinal fins, threaded mounting* | 30189 | PDF |DXF | |||||||||
0.40″ longitudinal fins, thru-hole mounting | 30195 | PDF |DXF | |||||||||
0.90″ longitudinal fins, thru-hole mounting | 30182 | PDF |DXF | |||||||||
0.40″ transverse fins, threaded mounting* | 30184 | PDF |DXF | |||||||||
0.90″ transverse fins, threaded mounting | 30269 | PDF |DXF | |||||||||
0.40″ transverse fins, thru-hole mounting | 30721 | PDF |DXF | |||||||||
0.90″ transverse fins, thru-hole mounting | 30724 | PDF |DXF | |||||||||
* NOT for use with threaded baseplates | |||||||||||
Heat Sink Thermal Data and Calculator | |||||||||||
Heat Sinks used with Vicor’s Micro-Size Modules | |||||||||||
Description | P/N | RoHS | Technical Drawing | ||||||||
0.40″ longitudinal fins, threaded mounting* | 32174 | PDF |DXF | |||||||||
0.90″ longitudinal fins, threaded mounting* | 30190 | PDF |DXF | |||||||||
0.40″ longitudinal fins, thru-hole mounting | 30719 | PDF |DXF | |||||||||
0.90″ longitudinal fins, thru-hole mounting | 30183 | PDF |DXF | |||||||||
0.40″ transverse fins, threaded mounting* | 32173 | PDF |DXF | |||||||||
0.90″ transverse fins, threaded mounting* | 30270 | PDF |DXF | |||||||||
0.40″ transverse fins, thru-hole mounting | 30722 | PDF |DXF | |||||||||
0.90″ transverse fins, thru-hole mounting | 30725 | PDF |DXF | |||||||||
* NOT for use with threaded baseplates | |||||||||||
Heat Sink Thermal Data and Calculator | |||||||||||
Low-Profile Side-Fin Heat Sinks (Height only 0.125″ above module baseplate) | |||||||||||
Description | P/N | RoHS | Technical Drawing | ||||||||
0.55″ Side-Fin Heat Sink for Maxi-Sized Modules | 30096 | ||||||||||
0.55″ Side-Fin Heat Sink for Mini-Sized Modules | 32190 | ||||||||||
0.55″ Side-Fin Heat Sink for Micro-Sized Modules | 30095 | ||||||||||
Heat Sink Thermal Data and Calculator | |||||||||||
ThermMate Thermal Pads (10 pieces per package) | |||||||||||
Description | P/N | Thickness | RoHS | Technical Drawing | |||||||
For use with Vicor Maxi-size modules* | 20263 | 0.007″ | PDF |DXF | ||||||||
For use with Vicor Mini-size modules* | 20264 | 0.007″ | PDF |DXF | ||||||||
For use with Vicor Micro-size modules | 20265 | 0.007″ | PDF |DXF | ||||||||
* NOT for use with VI-200 or VI-J00 modules |