TI adds RF gain blocks, mixers and modulator to product lineup

New high-performance RF building blocks are optimized for power and performance

DALLAS, June 3, 2014 — (PRNewswire) —  Texas Instruments (TI) (NASDAQ: TXN) expanded its RF portfolio today with the addition of high-performance RF gain blocks, down-converting mixers and a complex modulator that provide the industry's best combination of power and performance. The new RF devices are being demonstrated this week in TI's booth (#2041) at the International Microwave Symposium and complement TI's existing portfolio of transmit digital-to-analog converters (DACs), receive analog-to-digital converters (ADCs), IQ modulators, IF DVGAs, phase-locked loop (PLL) and RF synthesizers. For more information about the new RF gain blocks, down-converting mixers and complex modulator, visit www.ti.com/rfgainblocks-pr, www.ti.com/downconvertingmixers-pr and www.ti.com/complexmodulator-pr.

Texas Instruments (TI) (NASDAQ: 
<a href='TXN'>TXN</a>) expanded its RF portfolio today with the addition of high-performance RF gain blocks, down-converting mixers and a complex modulator that provide the industry’s best combination of power and performance. For more information about the new RF gain blocks, down-converting mixers and complex modulator, visit www.ti.com/rfgainblocks-pr, www.ti.com/downconvertingmixers-pr and www.ti.com/complexmodulator-pr.

RF gain blocks
The new 3.3-V and 5-V RF gain block family offers a unique combination of broad frequency range, small footprint, high integration, high output 3rd intercept point (OIP3) and low power consumption to maximize design flexibility. The versatile devices can be used in many industrial, communications and defense applications, such as smart meters, test and measurement, wireless base stations, RF backhaul, repeaters, and phased-array radar.

Key features and benefits

  • Broad frequency range: Broadband matched across a wide operational range of 1 MHz to 6 GHz enables system designers to use the same gain block at RF and IF frequencies.
  • Small package, high integration for reduced footprint and bill of material costs:
    • 2-mm by 2-mm QFN package saves board space
    • Integrated power down eliminates need for an external switch, which reduces bill of materials cost and saves board space.
  • High linearity: Provides 10-dB higher OIP3 than comparable 3.3-V RF gain blocks with an integrated power down, enabling the devices to be used in a wide variety of application circuits.
  • Low power consumption: 3.3-V gain blocks use only 180 mW of power and the 5-V devices use 400 mW to increase efficiency.
  • Pin-compatible: 3.3-V and 5-V supply options in 12-dB, 15-dB, 18-dB and 20-dB gains.

Tools, pricing and availability
The new RF gain block family includes the following devices:

Device

 

Supply voltage

 

Gain

(typical)

Device price

(1,000-unit)

Evaluation module

(EVM)

TRF37A75

5 V

12 dB

US$0.95

TRF37A75EVM

TRF37B75

5 V

15 dB

US$0.95

TRF37B75EVM

TRF37C75

5 V

18 dB

US$0.95

TRF37C75EVM

TRF37A73

3.3 V

12 dB

US$0.90

TRF37A73EVM

TRF37B73

3.3 V

15 dB

US$0.90

TRF37B73EVM

TRF37C73

3.3 V

18 dB

US$0.90

TRF37C73EVM

TRF37D73

3.3 V

20 dB

US$0.90

TRF37D73EVM

The 5-V devices are available now, and evaluation modules (EVMs) are available for purchase today for US$49. The 3.3-V gain blocks will be in volume production in July 2014, and EVMs will be available for purchase later this month.

Down-converting mixers
High performance, multi-channel receiver applications value high linearity, gain and wide tuning flexibility at the lowest power consumption. The new dual-channel down-converting mixer family matches the performance of existing solutions at half the power consumption. The mixers can be used in diversity receive, multi-antenna and high-performance applications, such as phased-array radar, wireless base stations, RF backhaul and repeaters, and test and measurement.

Key features and benefits:

  • Wide tuning range: Family supports 300 MHz to 3800 MHz, providing pin-compatible coverage of frequently used bands, such as L-band and 3GPP cellular.
  • High signal quality: Provides 29-dBm input 3 rd order intercept point (IIP3), 10-dB gain and 9.5-dB noise figure in high-performance receiver applications.
  • Best-in-class power consumption: Uses only 500 mW of power per channel, providing lower operational and cooling costs.

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