PEC3-40-1D6G2D7G-15LM-SFF

PMI Model No. PEC3-40-1D6G2D7G-15LM-SFF is a limiting amplifier that operates over the frequency range of 1.6 to 2.7 GHz and offers a limited output of 15 dBm ± 2 dBm. The saturated power frequency flatness is ±1.5 dB maximum with a gain of 35 dB minimum and a typical noise figure of 4.5 dB. The 2nd harmonic rejection is 24 dBc typically with an OIP3 of +18 dBm typical. This amplifier offers superior pulse response performance with a maximum overshoot of 0.4 dB, settling time of 15 ns maximum and a maximum recovery time of 50 ns. Input power levels of up to +25 dBm CW can be applied without any damage to the amplifier. This unit is supplied in a housing that measured 1.91” x 0.78” x 0.36” and has SMA female connectors.

Product Specifications

General Parameters:
Status: Active
Frequency Range: 1.6 to 2.7 GHz
Frequency Min: 1.6 GHz
Frequency Max: 2.7 GHz
Input Power: -25 to +5 dBm Min
Input Power (Measured): -25 to +5 dBm Min, -30 to +5 dBm (Goal)
Input VSWR: 2.0:1 Max
Input VSWR (Measured): 2.0:1 Max - Measured 1.22:1 (Input) 1.28:1 (Output)
Output VSWR: 2.0:1 Max - Measured 1.22:1 (Input) 1.28:1 (Output)
Gain: 35 dB Min - Measured 42.37 dB
Gain Flatness: 2.0 dB Max
Noise Figure: 5.5 dB Max @ +25 °C - Measured 4.29 dB
Harmonics: -15 dBm Min, -18 dBm (Goal)
Sealing: Non-Hermetic
Saturated Output Power: 15 dBm Min
Saturated Power Flatness: 1.5 dB Max - Measured ±0.80 dB
Reverse isolation: 50 dB Min - Measured 81.15 dB
Pulse Response Overshoot: 0.4 dB Max - Measured <0.4 dB
Pulse Response Settling Time: 15 ns Max - Measured <15 ns
Pulse Response Recovery Time: 50 ns Max - Measured <30 ns
Maximum Input Power: 25 dBm CW
DC Voltage Supply: +12 to +15V
DC Current Draw: 400 mA Max - Measured 245 mA
Size: 1.91" x 0.78" x 0.36"
Connectors: SMA (F)
Environmental Ratings:
Temperature: -55 ºC to +85 ºC
Non-Operating: -65 ºC to +125 ºC
Humidity: MIL-STD-202F, Method 103B Cond. B
Shock: MIL-STD-202F, Method 213B Cond. B
Vibration: MIL-STD-202F, Method 204D Cond. B
Altitude: MIL-STD-202F, Method 105C Cond. B
Temperature Cycle: MIL-STD-202F, Method 107D Cond. A