HMC943APM5E
>1.5 W (34 dBm), 24 GHz to 34 GHz, GaAs, pHEMT, MMIC, Power Amplifier
Show More
Not the part you were looking for?
Ask a Question
Submit your question below and we will return the best answer from ADI’s knowledge database:
Other places you can find help
Support
Analog Devices Support Portal is a one-stop shop to answer all your ADI questions.
Visit the ADI Support PageFeatures
- High saturated output power (PSAT): 34 dBm
- High output IP3: 39 dBm
- High gain: 23 dB
- DC supply: 5.5 V at 1300 mA
- No external matching required
- 32-lead, 5 mm × 5 mm LFCSP_CAV package
The HMC943APM5E is a four stage, gallium arsenide (GaAs), pseudomorphic high electron mobility transistor (pHEMT), monolithic microwave integrated circuit (MMIC), >1.5 W power amplifier that operates between 24 GHz to 34 GHz. The HMC943APM5E provides 23 dB of gain, 34 dBm of saturated output power (PSAT), and 23% power added efficiency (PAE) from a 5.5 V supply. The high output third-order intercept (IP3) of 39 dBm makes the HMC943APM5E ideal for microwave radio applications. A power detector output is also available. The HMC943APM5E amplifier input/outputs (I/Os) are internally matched to 50 Ω. The device is packaged in a leadless, 5 mm × 5 mm, surface-mount LFCSP_CAV package, and requires no external matching components.
Applications
- Point to point radios
- Point to multipoint radios
- Microwave radios, very small aperture terminals (VSATs), and satellite communications (SATCOM)
- Military and space
Ask a Question
Submit your question below and we will return the best answer from ADI’s knowledge database:
Other places you can find help
Support
Analog Devices Support Portal is a one-stop shop to answer all your ADI questions.
Visit the ADI Support Page{{modalTitle}}
{{modalDescription}}
{{dropdownTitle}}
- {{defaultSelectedText}} {{#each projectNames}}
- {{name}} {{/each}} {{#if newProjectText}}
- {{newProjectText}} {{/if}}
{{newProjectTitle}}
{{projectNameErrorText}}
HMC943APM5E
Documentation
Filters
1 Applied
Data Sheet
2
Application Note
5
HTML
HTML
HTML
HTML
HTML
Documentation
Product Selection Guide 1
ADI has always placed the highest emphasis on delivering products that meet the maximum levels of quality and reliability. We achieve this by incorporating quality and reliability checks in every scope of product and process design, and in the manufacturing process as well. "Zero defects" for shipped products is always our goal. View our quality and reliability program and certifications for more information.
Part Model | Pin/Package Drawing | Documentation | CAD Symbols, Footprints, and 3D Models |
---|---|---|---|
HMC943APM5E | 32-Lead LFCSP (5mm x 5mm w/ EP) |
|
|
HMC943APM5ETR | 32-Lead LFCSP (5mm x 5mm w/ EP) |
|
- HMC943APM5E
- Pin/Package Drawing
- 32-Lead LFCSP (5mm x 5mm w/ EP)
- Documentation
- HTML Material Declaration
- HTML Reliablity Data
- CAD Symbols, Footprints, and 3D Models
- Ultra Librarian
- SamacSys
- HMC943APM5ETR
- Pin/Package Drawing
- 32-Lead LFCSP (5mm x 5mm w/ EP)
- Documentation
- HTML Material Declaration
- HTML Reliablity Data
- CAD Symbols, Footprints, and 3D Models
- Ultra Librarian
- SamacSys
Filter by Model
Part Models
Product Lifecycle
PCN
Mar 19, 2021
- 20_0308
Epoxy Change at ASE Chungli Branch for PM5E and ACGZN Packages
HMC943APM5E
PRODUCTION
HMC943APM5ETR
PRODUCTION
Filter by Model
Part Models
Product Lifecycle
PCN
Mar 19, 2021
- 20_0308
Epoxy Change at ASE Chungli Branch for PM5E and ACGZN Packages
HMC943APM5E
PRODUCTION
HMC943APM5ETR
PRODUCTION
Software & Part Ecosystem
Evaluation Kits 1
EVAL-HMC943APM5E
HMC943APM5E Evaluation Board
Product Detail
The HMC943APM5E evaluation board is a 2 layer board fabricated using Rogers 4350 and best practices for high frequency RF design. The RF input and RF output traces have a 50 Ω characteristic impedance. The circuit board is attached to a heat sink using SN96 solder and provides a low thermal resistance path. Components are mounted using SN63 solder allowing rework of the surface-mount components without compromising the circuit board to heat sink attachment.
The evaluation board and populated components are designed to operate over the ambient temperature range of −40°C to +85°C. During operation, to control the temperature of the HMC943APM5E, attach the evaluation board to a temperature controlled plate.
Resources