OA3MMQM
Microchip Technology| Description: | 20 dB Gain RF Amplifiers |
| Introduction date: | Mar 18, 2016 |
Updated: 15-JAN-2025 | |
Online version:https://www.datasheets.com/part-details/oa3mmqm-microchip-technology-89112148
Overview
Familiarize yourself with the fundamental general information, properties, and characteristics of the component, along with its compliance with industry standards and regulations.
LifeCyclePremium
EU RoHS Unknown
RoHS Version2011/65/EU
Automotive No
Supplier Cage Code60991
PPAP No
AEC Qualified No
Category Path
Semiconductor > RF and Microwave > RF Amplifiers > RF Amplifiers
Semiconductor > RF and Microwave > RF Amplifiers > RF Amplifiers
Parametric
The parametric information displays vital features and performance metrics of the component, which helps engineers and supply chain managers to compare and choose the most appropriate electronic component for their applications and needs.
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Product Line
Typical Insertion Loss
Maximum Input Power
Process Technology
Warranty
Typical Power Added Efficiency
Maximum Input Return Loss
Power Supply Type
Typical Single Supply Voltage
Operational Bias Conditions
Typical 3rd Order Output Intercept Point @ Bias Conditions
Supplier Temperature Grade
Typical Gain Flatness
Maximum Output Return Loss
Typical Output Intercept Point
Maximum Reverse Isolation
Maximum Power Dissipation
Typical Output Power
Typical Dual Supply Voltage
Minimum Storage Temperature
Maximum Storage Temperature
Manufacturer Type
Number of Channels per Chip
Type
Minimum Operating Frequency
Maximum Operating Frequency
Typical Output Power Range
Typical 3dB Bandwidth
Typical Output 1dB Compressed Power @ Bias Conditions
Typical Noise Figure
Minimum Single Supply Voltage
Maximum Single Supply Voltage
Maximum Operating Supply Voltage
Minimum Dual Supply Voltage
Maximum Dual Supply Voltage
Maximum Supply Current
Minimum Operating Temperature
Maximum Operating Temperature
Maximum Input VSWR
Maximum Output VSWR
Typical Power Gain