The future of standardized defense platforms using MOSA, SOSA and VPX open architectures
The future of standardized defense platforms using MOSA, SOSA and VPX open architectures
RAM™ output filter
Output ripple attenuator for VI-200/VI-J00
The RAM (Ripple Attenuator Module) may be connected to
The RAM offers power systems architects a single, flexible, component-level solution to almost any clean-power problem. It also eliminates the space, efficiency and weight penalties associated with linear power sources, and the stability, efficiency, and adjustment penalties associated with external add-on filters for conventional switchers.
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| Part Number | Data Sheet | Temperature | Current (A) | RoHS Compliant | Add to cart / view details | ||
|---|---|---|---|---|---|---|---|
|
VI-RAM-E1
|
|
Part Number: VI-RAM-E1 |
Data Sheet:
 |
Temperature:
–10°C to +100°C
|
Current (A):
Up to 10A
|
RoHS Compliant:
No
|
View details |
|
VI-RAM-C1
|
|
Part Number: VI-RAM-C1 |
Data Sheet:
|
Temperature:
–25°C to +100°C
|
Current (A):
Up to 10A
|
RoHS Compliant:
No
|
View details |
|
VI-RAM-C2
|
|
Part Number: VI-RAM-C2 |
Data Sheet:
|
Temperature:
–25°C to +100°C
|
Current (A):
Up to 10A
|
RoHS Compliant:
No
|
View details |
|
VI-RAM-I1
|
|
Part Number: VI-RAM-I1 |
Data Sheet:
|
Temperature:
–40°C to +100°C
|
Current (A):
Up to 10A
|
RoHS Compliant:
No
|
View details |
|
VI-RAM-M1
|
|
Part Number: VI-RAM-M1 |
Data Sheet:
|
Temperature:
–55°C to +100°C
|
Current (A):
Up to 10A
|
RoHS Compliant:
No
|
View details |
|
VE-RAM-E1
|
|
Part Number: VE-RAM-E1 |
Data Sheet:
|
Temperature:
–10°C to +100°C
|
Current (A):
Up to 10A
|
RoHS Compliant:
Yes
|
View details |
|
VE-RAM-C1
|
|
Part Number: VE-RAM-C1 |
Data Sheet:
|
Temperature:
–25°C to +100°C
|
Current (A):
Up to 10A
|
RoHS Compliant:
Yes
|
View details |
|
VE-RAM-I1
|
|
Part Number: VE-RAM-I1 |
Data Sheet:
|
Temperature:
–40°C to +100°C
|
Current (A):
Up to 10A
|
RoHS Compliant:
Yes
|
View details |
|
VE-RAM-M1
|
|
Part Number: VE-RAM-M1 |
Data Sheet:
|
Temperature:
–55°C to +100°C
|
Current (A):
Up to 10A
|
RoHS Compliant:
Yes
|
View details |
|
VI-RAM-E2
|
|
Part Number: VI-RAM-E2 |
Data Sheet:
|
Temperature:
–10°C to +100°C
|
Current (A):
Up to 10A
|
RoHS Compliant:
No
|
View details |
|
VI-RAM-I2
|
|
Part Number: VI-RAM-I2 |
Data Sheet:
|
Temperature:
–40°C to +100°C
|
Current (A):
Up to 10A
|
RoHS Compliant:
No
|
View details |
|
VI-RAM-M2
|
|
Part Number: VI-RAM-M2 |
Data Sheet:
|
Temperature:
–55°C to +100°C
|
Current (A):
Up to 10A
|
RoHS Compliant:
No
|
View details |
|
VE-RAM-E2
|
|
Part Number: VE-RAM-E2 |
Data Sheet:
|
Temperature:
–10°C to +100°C
|
Current (A):
Up to 10A
|
RoHS Compliant:
Yes
|
View details |
|
VE-RAM-C2
|
|
Part Number: VE-RAM-C2 |
Data Sheet:
|
Temperature:
–25°C to +100°C
|
Current (A):
Up to 10A
|
RoHS Compliant:
Yes
|
View details |
|
VE-RAM-I2
|
|
Part Number: VE-RAM-I2 |
Data Sheet:
|
Temperature:
–40°C to +100°C
|
Current (A):
Up to 10A
|
RoHS Compliant:
Yes
|
View details |
|
VE-RAM-M2
|
|
Part Number: VE-RAM-M2 |
Data Sheet:
|
Temperature:
–55°C to +100°C
|
Current (A):
Up to 10A
|
RoHS Compliant:
Yes
|
View details |
Power System Designer
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Output
Min output:
Minimum output:
Nom output:
Nominal output:
Max output:
Maximum output:
Features and Benefits
Features and benefits
Reduces output ripple to <3mVP-P (VI-200)
Compatible with any
No adjustments required
Converter sense, trim, overvoltage and overcurrent retained
Resources
Resources for the design engineer
Delivering higher power density and low noise for New Space applications
Patented power design techniques and architectures needed to deliver optimal power and low noise for space communications applications
Spaceships high current transponder powers on-orbit AI-driven communication
Smaller satellites with sophisticated computational capabilities is in demand. Learn how low-noise, AI-enabled power is driving creative new applications
Current multipliers: The obvious choice for powering AI processors and other demanding applications
AI processors need to handle low-voltage, high-current demand, which can cause power system bottlenecks. Learn how current multiplication can change that
Promo Component
Get more documents, videos and case studies in the resource library for engineers
Related Products
Related Products
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Output ripple attenuator module for VI-200/VI-J00 and Micro, Mini, Maxi series converters