1-150 MHz 100W Power Amplifier

Model: PAM1150-G45P50
PAM1150-G45P50 Power Amplifier
50 Ohm 50dBm/100 W SMA-Female Power Amplifier From 1-150 MHz Rated at Gain 45dB
1-150 MHz, SMA-Female Power Amplifier;
Ultra Broadband, Multi-Octave;
Gain: 45dB;  Output Power: 50dBm/100 W;
Operating Temperature: -30 to +55℃.

Frequency Range | MHz : 1-150
Impedance | Ω : 50
Input Power | dBm Max. : 8
Gain | dB Min. : 45
Gain Fla. | dB Max. : ±1.5
Output Power | dBm Min. : 50@Psat/100 W
Input VSWR | Max. : 2.5
OIP3 | dBm Min. : /@/
Power Supply | V/A Type. : 28/9
Freq. Max : 400MHz

500-2500 MHz 50W Power Amplifier

Model: PA005025-G42P47

50 Ohm 47dBm/50 W SMA-Female Power Amplifier From 500-2500 MHz Rated at Gain 42dB
500-2500 MHz, SMA-Female Power Amplifier;
Ultra Broadband, Multi-Octave;
Gain: 42dB;  Output Power: 47dBm/50 W;
Operating Temperature: -30 to +55℃.

Frequency Range | MHz : 500-2500
Impedance | Ω : 50
Input Power | dBm Max. : 8
Gain | dB Min. : 42
Gain Fla. | dB Max. : ±2
Output Power | dBm Min. : 47@Psat/50 W
Input VSWR | Max. : 2.5
OIP3 | dBm Min. : /@/
Power Supply | V/A Type. : 28/10
Freq. Max : 1GHz
Ouput Connector : SMA-Female

28-31 GHz Pulse Power Amplifier

Model: PPA280310-G70P49
PPA280310-G70P49 Pulse Power Amplifier
28 GHz to 31 GHz Frequency Range
50 Ohms Input and Output Matched
P1dB 49 dBm min.
Small Signal Gain: 70 dB min.
Input Connectors: 2.92mm-Jack (F)
Output Connectors: WR28
Operating Temperature: -40 to +60℃
Power Supply Protection Overheat Protection
Current Protection Fan Fault Protection

27-32 GHz 33dBm Power Amplifier

Model: PA270320-G40P33
PA270320-G40P33 Power Amplifier
32GHz, 2.92-Female Power Amplifier;
Ultra Broadband, Multi-Octave;
Output Power 33dBm @ P-1dB
Operating Temperature: -40 to +70℃

30-38 GHz Pulse Power Amplifier

Model: PA300380-G40P43
PA300380-G40P43 Power Amplifier
30 GHz to 38GHz Frequency Range
50 Ohms Input and Output Matched
P1dB 43 dBm typ.
Small Signal Gain: 40 dB min.
Gain Flatness:±1.5dB max.
Input Connectors: 2.92mm-Jack (F)
Output Connectors: WR28
Operating Temperature: -20 to +70℃
Standing Wave Protection
Power Supply Protection ● Overheat Protection
Current Protection ● Fan Fault Protection

28-40 GHz 30dBm Power Amplifier

Model: PA280400-G33P30
PA280400-G33P30 Power Amplifier
28 GHz to 40GHz Frequency Range
50 Ohms Input and Output Matched
Psat: 30 dBm min.
Small Signal Gain: 33 dB min.
Gain Flatness: ±3.0dB max.
Input and Output Connectors: 2.92mm-Female
Operating Temperature: -20 to +70℃

RFaxis Adds to Family of RF Front-end ICs for IoT Devices

RFaxis, Inc. of Irvine, California USA, has added products to its RF front-end integrated circuit (RFeIC™) solutions for the global IoT and M2M (machine-to-machine) market. The new products further expand the company’s family of RF front-end ICs for the 2.4GHz and sub-GHz frequency bands commonly used for range extension in many classes of wireless communication systems for IoT devices.The company added the RFX2403, RFX2413, and RFX1030 RFeICs to its IoT portfolio. The RFX2403 has an integrated high-efficiency power amplifier (PA), low noise amplifier (LNA) with bypass, and Transmit/Receive switching circuitry for 802.15.4 ZigBee/Thread. It also includes proprietary ISM radios in the 2.4GHz spectrum and supports linear modulations including Bluetooth® Low Energy (BLE). It is pin-to-pin compatible to the company’s RFX2401C with added bypass mode and

The company added the RFX2403, RFX2413, and RFX1030 RFeICs to its IoT portfolio. The RFX2403 has an integrated high-efficiency power amplifier (PA), low noise amplifier (LNA) with bypass, and Transmit/Receive switching circuitry for 802.15.4 ZigBee/Thread. It also includes proprietary ISM radios in the 2.4GHz spectrum and supports linear modulations including Bluetooth® Low Energy (BLE). It is pin-to-pin compatible to the company’s RFX2401C with added bypass mode and directional coupler based output power detector circuitry. This compatibility allows users to upgrade their wireless systems to extend range, lower power consumption, increase battery life, increase tolerance to antenna impedance variations, and improve coexistence performance with adjacent radios.Similarly, the RFX2413 integrates a high-efficiency PA, an antenna diversity switch, and power detector circuitry, also for the 2.4GHz band. The RFX2413, which has a low bypass insertion loss, is ideal for wireless IoT systems with transceivers that already have low noise figure. The RFX2413 has the added benefit of barely any current draw during.

Similarly, the RFX2413 integrates a high-efficiency PA, an antenna diversity switch, and power detector circuitry, also for the 2.4GHz band. The RFX2413, which has a low bypass insertion loss, is ideal for wireless IoT systems with transceivers that already have low noise figure. The RFX2413 has the added benefit of barely any current draw during Receive mode. The RFX1030 includes an integrated a 1 Watt high-power, high-efficiency PA, LNA, and Transmit/Receive switching circuitry, and a directional power detector circuitry intended for the sub-GHz 802.15.14. The RFX130 also has proprietary ISM radio topologies such as LoRa®, SigFox®, and Weightless®, and Narrowband Cellular IoT (NB-CIoT).

The RFX1030 includes an integrated a 1 Watt high-power, high-efficiency PA, LNA, and Transmit/Receive switching circuitry, and a directional power detector circuitry intended for the sub-GHz 802.15.14. The RFX130 also has proprietary ISM radio topologies such as LoRa®, SigFox®, and Weightless®, and Narrowband Cellular IoT (NB-CIoT). The three new products come with associated matching networks, harmonic and RF decoupling filters. The single-die, single-chip, bulk CMOS devices come in miniature 3x3mm QFN packages.

The three new products come with associated matching networks, harmonic and RF decoupling filters. The single-die, single-chip, bulk CMOS devices come in miniature 3x3mm QFN packages.

Anadigics launches three small-cell wireless infrastructure power amplifiers

Broadband wireless and wireline communications component maker Anadigics Inc of Warren, NJ, USA has launched three new power amplifiers (PAs) optimized for 3G and 4G small-cell applications, including picocells, enterprise-class femtocells, and high-performance customer premises equipment (CPE). Service providers are expected to increasingly leverage small-cell equipment to improve network capacity and data speeds in densely populated areas. This is exemplified by a recent presentation at LTE World Summit 2015 by Vodafone Netherlands, which discussed planned expansion of its small-cell network and the superior customer experience that it provides.

The AWB7133, AWB7137 and AWB7238 power amplifiers operate in the 2496-2690MHz, 758-803MHz and 791-821MHz frequency band, respectively, delivering a combination of efficiency, linearity, output power and thermal characteristics enabling manufacturers to develop wireless infrastructure solutions that consume less power and provide higher throughput with greater coverage, the firm claims.

"Anadigics continues to expand its industry-leading small-cell power amplifier family to address the most popular WCDMA, LTE FDD and TD-LTE frequency bands," says Charles Armour, Anadigics' senior director of business development for Wireless Infrastructure Products.  "As wireless data consumption continues to break records, our power amplifiers enable the design of high-throughput, reliable, and compact small-cell base stations," he adds. "These solutions enable service providers to economically and pragmatically expand broadband network capacity and coverage."

Anadigics' complete family of small-cell wireless infrastructure power amplifiers leverages the firm's unique InGaP-Plus technology and innovative design architectures to deliver what is claimed to be industry-leading performance and integration. The AWB7133 and AWB7137 power amplifiers deliver better than 15% efficiency, 28dB gain, and -47dBc ACPR @ +24.5dBm of linear output power. The AWB7238 power amplifier features 13.5% efficiency, 30dB gain, and -47dBc ACPR @ +27dBm linear output power.

The power amplifiers are available in the same compact, low-profile 7mm x 7mm x 1.3mm surface-mount package used across the entire AWB71XX and AWB72XX product lines, allowing the same PCB layout to be used for different bands and power levels. Anadigics' small-cell power amplifiers also offer integrated bias, eliminating the need for complicated external bias circuitry and reducing PCB space requirements.