BGA123L4 is designed to enhance GNSS signal sensitivity especially in wearables and mobile cellular IoT devices. With 18.2 dB gain and only 0.75 dB noise figure it ensures high system sensitivity. ...
Frequency Max 1.615 GHz Product Range - Supply Voltage Max 3.3 V Frequency Min 1.55 GHz No. of Pins 6 Pins RF IC Case Style TSNP Operating Temperature Max 85 °C Automotive Qualification Standard - ...
Frequency Max 1.3 GHz Product Range - Supply Voltage Max 3.3 V Frequency Min 1.164 GHz No. of Pins 6 Pins RF IC Case Style TSNP Operating Temperature Max 85 °C Automotive Qualification Standard - N...
Frequency Max 3 GHz Product Range - Supply Voltage Max 5 V MSL MSL 3 - 168 hours Frequency Min 0 Hz No. of Pins 4 Pins RF IC Case Style SOT-343 Operating Temperature Max 150 °C Automotive Qualifica...
Frequency Max 2.69 GHz Product Range - Supply Voltage Max 3.6 V MSL MSL 1 - Unlimited Frequency Min 2.3 GHz No. of Pins 6 Pins RF IC Case Style TSNP Operating Temperature Max 85 °C Automotive Quali...
Frequency Max 1 GHz Product Range - Supply Voltage Max 3.6 V MSL MSL 1 - Unlimited Frequency Min 600 MHz No. of Pins 6 Pins RF IC Case Style TSNP Operating Temperature Max 85 °C Automotive Qualific...
Frequency Max 2.2 GHz Product Range - Supply Voltage Max 3.6 V MSL MSL 1 - Unlimited Frequency Min 1.805 GHz No. of Pins 6 Pins RF IC Case Style TSNP Operating Temperature Max 85 °C Automotive Qual...
BGA614 is a broadband matched, general purpose MMIC amplifier in a Darlington configuration. It is optimized for a typical supply current of 40 mA. The BGA614 is based on Infineon Technologies’ B7H...
Frequency Max 2.7 GHz Product Range - Supply Voltage Max 4.5 V MSL MSL 1 - Unlimited Frequency Min 0 GHz No. of Pins 4 Pins RF IC Case Style SOT-343 Operating Temperature Max 150 °C Automotive Qual...
Frequency Max 1.615 GHz Product Range - Supply Voltage Max 3.3 V MSL MSL 1 - Unlimited Frequency Min 1.55 GHz No. of Pins 7 Pins RF IC Case Style TSNP Operating Temperature Max 85 °C Automotive Qua...
The BGA725L6 is a front-end low noise amplifier for Global Navigation Satellite Systems (GNSS) from 1550 MHz to 1615 MHz like GPS, GLONASS, Beidou, Galileo and others. The LNA provides 20.0 dB gain...
Frequency Max 1 GHz Product Range - Supply Voltage Max 3.3 V Frequency Min 70 MHz No. of Pins 6 Pins RF IC Case Style TSNP Operating Temperature Max 85 °C Automotive Qualification Standard - Noise ...
Frequency Max 2.69 GHz Product Range - Supply Voltage Max 3.6 V MSL - Frequency Min 1.805 GHz No. of Pins 6 Pins RF IC Case Style TSNP Operating Temperature Max 85 °C Automotive Qualification Stand...
Frequency Max 960 MHz Product Range - Supply Voltage Max 3.6 V MSL MSL 1 - Unlimited Frequency Min 716 MHz No. of Pins 6 Pins RF IC Case Style TSNP Operating Temperature Max 85 °C Automotive Qualif...
Insertion power gain: 13.0 dB Low noise figure: 0.60 dB Low current consumption: 4.4 mA Operating frequencies: 1805 - 2200 MHz Supply voltage: 1.5 V to 3.3 V Digital on/off switch (1V logic high le...
Frequency Max 3.8 GHz Product Range - Supply Voltage Max 3.1 V Frequency Min 3.3 GHz No. of Pins 6 Pins RF IC Case Style TSNP Operating Temperature Max 85 °C Automotive Qualification Standard - Noi...
Frequency Max 5 GHz Product Range - Supply Voltage Max 2 V MSL MSL 1 - Unlimited Frequency Min 4.4 GHz No. of Pins 9 Pins RF IC Case Style TSNP Operating Temperature Max 85 °C Automotive Qualificat...
Frequency Max 2.7 GHz Product Range - Supply Voltage Max 3.3 V MSL - Frequency Min 2.3 GHz No. of Pins 6 Pins RF IC Case Style TSNP Operating Temperature Max 85 °C Automotive Qualification Standard...
Frequency Max 4.2 GHz Product Range - Supply Voltage Max 2 V MSL MSL 1 - Unlimited Frequency Min 3.3 GHz No. of Pins 9 Pins RF IC Case Style TSNP Operating Temperature Max 85 °C Automotive Qualific...
Frequency Max 3.8 GHz Product Range - Supply Voltage Max 1.9 V Frequency Min 3.4 GHz No. of Pins 10 Pins RF IC Case Style ATSLP Operating Temperature Max 85 °C Automotive Qualification Standard - N...
The BGB741L7ESD is a high performance broadband low noise amplifier (LNA) MMIC based on Infineon’s silicon germanium carbon (SiGe:C) bipolar technology.
