MIL-COTS MicroRAM - Vitecpower

Description

The MicroRAM output ripple attenuation module combines both active and passive filtering to achieve greater than 40 dB of noise attenuation from 60 Hz to 1 MHz. The MicroRAM operates over a range of 3 – 30 Vdc, is available in either 20 or 30 A models and is compatible with most manufacturers switching converters including Vicor’s MI-200 / MI-J00 and Maxi, Mini and Micro series DC-DC converters.

The MicroRAM’s closed loop architecture greatly improves load transient response and with dual mode control, insures precise point-of-load voltage regulation. The MicroRAM supports redundant and parallel operation with its integrated ORing diode function.

Specifications

Input Voltage:

3 – 30 Vdc

Output Current:

µRAM2(xxx): 20 A
µRAM3(xxx): 30 A

Efficiency:

Up to 98%

Operation:

-55 to 100°C M-Grades

Dimensions(quarter brick):

2.28″ x 1.45″ x 0.5″(57,9 x 36,8 x 12,7 mm)

Features

>40 dB ripple attenuation from 60 Hz to 1 MHz
Integrated ORing diode supports N+1 redundancy
Environmental stress screening
Combined active and passive filtering
20 and 30 Ampere ratings

Data Sheets

MIL-COTS MicroRAM Data Sheet

Application Notes

Design Guides / Manuals

Download Entire Manual

Maxi, Mini, Micro Design Guide and Applications Manual

Download Individual Chapters

Accessory Modules

Recommended Soldering Methods

Mounting Options

Mechanical Drawings

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

Design Calculators

This calculator program allow users to determine values that help with accessory
component selection for power system design.

Thermal Calculators

Thermal data and heat sink selection tool

This is a downloadable Excel file.

EMI Shielding

Description	P/N	RoHS	Technical Drawing
Micro-sized Shield for Slotted Baseplate	30141		PDF \| DXF
Micro-sized Shield for Threaded or Through-Hole Baseplate	30143		PDF \| DXF

Sockets, InMates, SurfMates and Extraction Tool


	SurfMates – Surface-mount Sockets
Board Thickness	Mounting	Assembly Drawing	Converter Pin Style*	Module Style	Input P/N**	Output P/N**	5 In/Out Sets P/N	Technical Drawing
All	surface	PDF \| DXF	F	Micro	22103	22104	16025	PDF \| DXF

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 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

Micro

18376

18386

18370

PDF | DXF

0.063″

0.055″ / 0.071″

onboard

G

Micro

18380

18392

18372

PDF | DXF

0.094″

0.084″ / 0.104″

inboard

F

Micro

18377

18387

18371

PDF | DXF

0.094″

0.084″ / 0.104″

onboard

G

Micro

18381

18393

18373

PDF | DXF

0.125″

0.1125″ / 0.1375″

onboard

G

Micro

21540

21545

21512

PDF | DXF

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

Click img.
to enlarge

Description

Module Style

P/N

Technical Drawing

Used to facilitate the proper extraction of Micro modules from InMate or SurfMate sockets.

Micro

22829

–

Thermal Management

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 Micro-Sized Modules		30095		PDF
	Heat Sink Thermal Data and Calculator


ThermMate Thermal Pads (10 pieces per package)
	Description	P/N	Thickness	RoHS	Technical Drawing


	For use with Vicor Micro-size modules	20265	0.007″		PDF \| DXF
	* NOT for use with VI-200 or VI-J00 modules