Found 200 matches (page 14 of 20)
Directional Coupler ADC-ED13396/2 Parameter Min. Typ. Max. Units Frequency 100 1200 MHz Coupling Nominal 20.55±1.5 dB Flatness 2.0 dB Mainline Loss* 100-1200 MHz 0.25 dB Directivity 100-1200 MHz 26 dB VSWR 100-1200 MHz 1.20 (:1) RF Power Input 100-1200 MHz 4 W Operating Temperature Storage Temperature INPUT OUTPUT COUPLED GND 50Ω TERM EXTERNAL ISOLATE (DO NOT USE) 4 5 PIN CONNECTIONS 1 ELECTRICAL SPECIFICATIONS 50Ω @ +25°C Note: * Mainline loss includes theoretical coupled power loss of 0.038
Directional Coupler ADC-ED8270/1 Parameter Min. Typ. Max. Units Frequency 200 1800 MHz Coupling Nominal 6.4 ± 0.40 dB Flatness ± 0.40 dB Mainline Loss** 200-1800 MHz 1.90 dB Directivity 200-1800 MHz 17 dB VSWR 200-1800 MHz 1.2 (:1) RF Power Input 200-1800 MHz 0.5 W Operating Temperature Storage Temperature INPUT OUTPUT COUPLED FORWARD 50Ω TERM. EXTERNAL GROUND NOT USED 5 Engineering Development Model Important Note This model has been designed, built and tested in our engineering department.
Directional Coupler ADC-ED9780/1 Parameter Min. Typ. Max. Units Frequency 0.5 2000 MHz Coupling Nominal 8.1 ± 0.7 dB Flatness ± 0.7 dB Mainline Loss ** 0.5-5 MHz 1.62 dB 5-1000 MHz 1.44 dB 1000-2000 MHz 2.81 dB Directivity 0.5-5 MHz 16 dB 5-1000 MHz 18 dB 1000-2000 MHz 14 dB VSWR 0.5-2000 MHz 1.2 (:1) RF Power Input 0.5-2000 MHz 1.0 W Operating Temperature Storage Temperature INPUT OUTPUT COUPLED FORWARD 75Ω TERM. EXTERNAL GROUND Engineering Development Model Important Note This model has been
Directional Coupler ADC-ED9945/1 Parameter Min. Typ. Max. Units Frequency 1 900 MHz Coupling Nominal 20.0 ± 0.5 dB Flatness ± 0.8 dB Mainline Loss ** 1-10 MHz 0.20 dB 10-450 MHz 0.25 dB 450-900 MHz 0.30 dB Directivity 1-10 MHz 22 dB 10-450 MHz 23 dB 450-900 MHz 24 dB VSWR 1-900 MHz 1.20 (:1) RF Power Input 1-900 MHz 1.0 W Operating Temperature Storage Temperature INPUT OUTPUT COUPLED FORWARD 50Ω TERM. EXTERNAL GROUND ISOLATE Engineering Development Model Important Note This model has been
(+5.25V-+4.75V)*1000mA/mV) 4. Gain is nominal when VC = Open. When VC is left floating, there is a measured voltage of +2V Performance Curves 1. Gain is nominal when VC = Open. When VC is left floating, there is a measured
ratings are not intended for continuous normal operation. 5. Tj = 85˚C + (VDD)*(IDD)*0(JC) = 90˚C Nominal
160 mA. 4. ((Current at Tmax°C - Current at -Tmin°C))/(Tmax °C -Tmin °C) 5. (Current at Nominal V +ΔV in mA)- (Current at Nominal V -ΔV mA)/(2ΔV mV) Parameter Condition (GHz) Min. Typ. Max. Units AVA-183MP+ Typical Performance Curves Note: All data taken was at nominal conditions VDD = +8V, IDD = 160 MOUNT Wideband Amplifier All data taken was at nominal conditions VDD = +8V and IDD = 160 mA unless Note: All data taken was at nominal conditions VDD = +8V, IDD = 160 mA, and VGG = -1.3V unless noted
at Nominal V +ΔV in mA) - (Current at Nominal V -ΔV mA)/(2ΔV mV) Parameter Condition (GHz) Min. Typ. SURFACE MOUNT TYPICAL PERFORMANCE GRAPHS All data taken was at nominal conditions VDD = +4V and IDD = nominal conditions VDD = +4V, IDD = 210 mA, and VGG = -0.52V unless noted otherwise. For over at nominal conditions VDD = +4V and IDD = 210 mA unless noted otherwise. For over temperature data, Performance Curves Note: All data taken was at nominal conditions VDD = +4V, IDD = 210 mA, and VGG =
(Current at Nominal V +ΔV in mA)- (Current at Nominal V -ΔV mA)/(2ΔV mV) Parameter Condition (GHz) Min. Performance Curves Note: All data taken was at nominal conditions VDD = +5V, IDD = 85 mA, and VGG = -0.9V Page 1 of 3 All data taken was at nominal conditions VDD = +5V and IDD = 85 mA unless noted otherwise. PERFORMANCE GRAPHS MMIC Amplifier AVA-5R183+ Typical Performance Curves Note: All data taken was at nominal +5V +5.25V REV. OR AVA-5R183+ 3/8/2023 Page 2 of 3 All data taken was at nominal conditions VDD = +5V
Bi-Directional Coupler BDCA1T-ED13403/1 CASE STYLE : DZ944-3 Parameter Min. Typ. Max. Units Frequency 700 1300 MHz Coupling Nominal 20.5±0.8 dB Flatness ±0.8 dB Mainline Loss* 700-1300 MHz 0.45 dB Directivity 700-1300 MHz 20 dB VSWR 700-1300 MHz 1.06 (:1) RF Power Input 700-1300 MHz 10 W Operating Temperature Storage Temperature INPUT OUTPUT COUPLED FORWARD COUPLED REVERSE GROUND Engineering Development Model Important Note This model has been designed, built and tested in our engineering
