Qorvo RFDA4005TR13
- Part No.:
- RFDA4005TR13
- Manufacturer:
- Qorvo
- Category:
- RF Amplifiers
- Package:
- 32-LFQFN Exposed Pad
- Datasheet:
-
RFDA4005TR13.pdf
- Description:
- IC RF AMP LTE 50MHZ-4GHZ 32MCM
- Quantity:
- Payment:

- Shipping:

Inventory:441
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Product details
Overview
RFDA4005TR13 from Qorvo is a broadband RF gain block amplifier designed for wireless infrastructure, RF signal-chain amplification, test equipment, and communication-system applications. The device integrates wideband amplification capability, high linearity, and low-noise performance suitable for RF front-end architectures operating across broad frequency ranges.
As part of the Qorvo RF amplifier portfolio, RFDA4005TR13 combines broadband gain performance, compact integration, and efficient RF signal amplification for industrial, communication, and wireless infrastructure systems. For engineers reviewing the RFDA4005TR13 datasheet, RFDA4005TR13 pinout, RFDA4005TR13 application, or RFDA4005TR13 equivalent, this device is widely used in RF driver stages, wireless base stations, instrumentation equipment, broadband communication systems, and RF signal-conditioning platforms.
Technical Context
In RF communication systems, RFDA4005TR13 operates as a broadband gain-stage amplifier providing signal amplification between mixers, filters, transceivers, or antenna-interface circuitry. The amplifier improves signal strength while maintaining linearity and bandwidth performance across wide operating frequencies.
The device is optimized for RF signal-chain applications requiring stable gain, broadband operation, and compact PCB implementation. High linearity supports communication systems that require low signal distortion and improved dynamic-range performance.
RFDA4005TR13 is commonly used in wireless infrastructure equipment, RF instrumentation, broadband communication platforms, test systems, signal-distribution architectures, and embedded RF subsystems.
Key Specifications
| Parameter | Value and Actual Design Meaning |
|---|---|
| Device Type | Broadband RF gain block amplifier for communication signal amplification. |
| Wideband Operation | Supports RF amplification across broad frequency ranges. |
| High Linearity | Improves signal integrity and reduces RF distortion in communication systems. |
| Gain Performance | Provides stable RF signal amplification within front-end architectures. |
| Low-Noise Characteristics | Supports improved RF signal quality and receiver-chain performance. |
| Compact Integration | Optimized for miniature RF PCB layouts and embedded wireless systems. |
| Surface-Mount Package | Supports automated RF PCB assembly and compact wireless designs. |
Pinout & Package
The RFDA4005TR13 pinout is optimized for RF PCB layouts and includes RF input/output ports, bias connections, grounding structures, and power-supply interfaces.
For PCB implementation, controlled-impedance RF traces, proper grounding, RF shielding, short signal routing, and optimized bypassing help maintain gain stability, bandwidth performance, and low-noise operation.
| Pin / Function | PCB Design and Circuit Role |
|---|---|
| RF IN | RF signal input supporting broadband signal amplification. |
| RF OUT | Amplified RF signal output for downstream communication stages. |
| VCC | Power-supply input supporting RF amplifier operation. |
| GND | Ground-reference connection supporting RF stability and shielding. |
| Bias Connections | Bias-control nodes supporting amplifier operating stability. |
| Thermal Pad | Heat-transfer structure improving RF thermal performance. |
Key Features
- Broadband RF gain block amplifier architecture.
- High linearity supports low-distortion communication performance.
- Stable RF gain suitable for wireless signal-chain amplification.
- Low-noise operation improves signal integrity.
- Compact package supports miniature RF PCB layouts.
- Suitable for wireless infrastructure and RF instrumentation systems.
Applications
| Wireless Infrastructure Systems | RF Instrumentation & Test Equipment |
|---|---|
|
Use Scenario: Wireless base stations, communication nodes, and RF infrastructure equipment. IC Role: RFDA4005TR13 amplifies broadband RF communication signals. Use Value: Improves signal-chain gain and communication performance. |
Use Scenario: RF analyzers, signal generators, and communication test platforms. IC Role: Provides broadband RF amplification for precision instrumentation systems. Use Value: Supports stable gain and low-distortion signal processing. |
| Broadband Communication Platforms | Embedded RF Subsystems |
|
Use Scenario: Broadband wireless communication and RF signal-distribution systems. IC Role: Amplifies RF signals within communication front-end architectures. Use Value: Improves communication signal strength and RF-chain stability. |
Use Scenario: Embedded wireless modules and RF control systems. IC Role: Performs compact broadband RF amplification within integrated designs. Use Value: Supports efficient embedded RF-system implementation. |
Equivalent & Alternatives
When evaluating RFDA4005TR13 equivalent devices, engineers should compare gain bandwidth, linearity, noise performance, operating frequency range, RF power capability, and PCB integration requirements.
| Alternative Part | Technical Difference | Application Difference | Selection Advice |
|---|---|---|---|
| HMC476MP86 | Analog Devices RF gain block amplifier with different gain and frequency characteristics. | Used in broadband RF communication and instrumentation systems. | Choose RFDA4005TR13 for Qorvo RF ecosystem compatibility and compact integration. |
| GALI-84+ | Mini-Circuits gain block amplifier optimized for wideband RF signal amplification. | Commonly used in RF prototyping and communication front-end systems. | Choose RFDA4005TR13 for integrated wireless infrastructure applications. |
Compared with HMC476MP86, RFDA4005TR13 is optimized for compact broadband RF amplification and wireless infrastructure integration. RFDA4005TR13 vs GALI-84+ selection depends on gain requirements, frequency range, RF linearity targets, and communication-system architecture goals.
Quality
RFDA4005TR13 should be sourced as original Qorvo components through traceable and controlled supply channels. Quality verification procedures may include package inspection, top-mark validation, solderability testing, RF gain verification, electrical characterization, and incoming inspection according to RF-system production requirements.
Because the device operates in RF communication environments, controlled-impedance PCB routing, stable bias filtering, RF shielding, optimized grounding, and thermal management help maintain signal integrity and long-term operational stability. Traceable sourcing supports industrial manufacturing quality and reduces counterfeit supply-chain risk.
Availability
RFDA4005TR13 available at Aetrix Electronics and suitable for wireless infrastructure, RF instrumentation, broadband communication, and embedded RF-system platforms requiring stable component supply and repeatable production support.
Supply support may include scheduled delivery planning, volume procurement support, BOM continuity assistance, traceable sourcing management, and long-term availability support for OEM manufacturers, wireless-system developers, RF engineers, and electronics production programs.
For production deployment, confirming package type, RF frequency requirements, gain characteristics, thermal specifications, and sourcing continuity helps reduce procurement risk and improve manufacturing stability.
Manufacturer
Qorvo is a semiconductor manufacturer specializing in RF solutions, wireless communication technologies, power amplifiers, RF front-end modules, infrastructure components, and signal-chain technologies for wireless, defense, industrial, and communication applications.
The Qorvo RF amplifier portfolio focuses on broadband signal amplification, high linearity, compact integration, and optimized RF performance for wireless infrastructure, instrumentation, embedded RF systems, and advanced communication architectures.
FAQ
What is RFDA4005TR13 used for?
RFDA4005TR13 is used for broadband RF amplification, wireless infrastructure systems, RF instrumentation, communication front-end architectures, and embedded RF applications.
Where can I find the RFDA4005TR13 datasheet download?
The RFDA4005TR13 datasheet is available from Qorvo and includes RF specifications, gain characteristics, package information, biasing details, and PCB integration guidance.
What should be considered in RFDA4005TR13 PCB design?
PCB implementation should prioritize controlled-impedance RF routing, stable bias filtering, RF shielding, optimized grounding, and thermal management for reliable RF performance.
Does RFDA4005TR13 support broadband RF amplification?
Yes. RFDA4005TR13 is designed for broadband RF signal amplification within communication and wireless infrastructure systems.
What are common RFDA4005TR13 equivalent solutions?
Common equivalent alternatives include HMC476MP86 and GALI-84+ depending on RF bandwidth, gain requirements, linearity targets, and wireless-system design objectives.
RFDA4005TR13 Specifications
- Product attributes
- Attribute value
- Manufacturer:
- Qorvo
- Series:
- -
- Package/Case:
- 32-LFQFN Exposed Pad
- Packaging:
- Tape & Reel (TR)
- Product Status:
- Active
- Frequency:
- 50MHz ~ 4GHz
- P1dB:
- 20dBm
- Gain:
- 19dB
- Noise Figure:
- 6.3dB
- RF Type:
- LTE, WiMax
- Voltage - Supply:
- 5V
- Current - Supply:
- 110mA
- Test Frequency:
- 4GHz
- Grade:
- -
- Qualification:
- -
- Mounting Type:
- Surface Mount
- Supplier Device Package:
- 32-MCM (5.2x5.2)
RFDA4005TR13 FAQ
1.How can I place an order for RFDA4005TR13 through Aetrix?
Please submit a Request for Quotation (RFQ) for RFDA4005TR13 on Aetrix. Our sales agent will provide a competitive quotation and guide you through the order confirmation once you accept the terms.
2.Are the price and stock information for RFDA4005TR13 reliable?
The price and inventory of RFDA4005TR13 are updated periodically and may fluctuate due to market conditions. Stock and pricing data are typically refreshed every 24 hours. Quotation validity for RFDA4005TR13 is usually 5 days.
3.What payment methods are accepted for RFDA4005TR13?
We accept Wire Transfer, PayPal, Credit Card, Western Union, MoneyGram, and Escrow for RFDA4005TR13 transactions.
Note: Certain payment methods may incur a processing fee.
4.How is shipping managed for RFDA4005TR13?
RFDA4005TR13 orders can be shipped via leading logistics carriers, including DHL, UPS, FedEx, TNT, or Registered Mail.
Once your RFDA4005TR13 order is processed, you will receive an email with the shipment details and tracking number.
Note: Tracking information may take up to 24 hours to appear. Express delivery typically takes 3–5 business days.
5.How can I obtain technical support or documentation for RFDA4005TR13?
For technical support, including RFDA4005TR13 datasheets, pinout diagrams, or application guidance, please contact our engineering support team. They can provide detailed documentation and assistance for your RFDA4005TR13 requirements.
6.How does Aetrix verify that RFDA4005TR13 is sourced from the original manufacturer or authorized distributors?
All RFDA4005TR13 products on Aetrix are procured from qualified distributors and authorized channels. Our dedicated quality assurance team conducts strict verification, including traceability checks and, if necessary, third-party testing. This ensures that RFDA4005TR13 meets industry standards.
7.What is the process for return or replacement of RFDA4005TR13?
All RFDA4005TR13 units undergo pre-shipment inspection (PSI). If there is an issue with RFDA4005TR13, returns or replacements are accepted under the following conditions:
1.Quantity discrepancies, incorrect items, or visible external defects (such as breakage or corrosion), acknowledged by Aetrix.
2.The issue is reported within 90 days of delivery.
3.The RFDA4005TR13 part is unused and in its original packaging.
Return procedure for RFDA4005TR13:
1.Submit a request within 90 days.
2.Obtain a Return Material Authorization (RMA) from Aetrix.
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