Specification of N Female Connector 1/2 ANDREW L4PNF-RC
Feeder Connector N Female 1/2 ANDREW L4PNF-RC Is A High Quality Feeder Connector Which Is Designed For Aircraft Radio Application On BTS Cellular, Transmitters Television Stations, FM-AM Radio Station, Navigation, Radar, Etc. Feeder Connector N Female 1/2 ANDREW L4PNF-RC Also Suitable For Feeder Cable 1/2 LEONI, RFS, SUHNER, EUPEN, DRAKA, ROSENBERGER, Etc. Feeder Connector N Female 1/2 ANDREW L4PNF-RC Can Be Found In Our Company .
Specifications
Product Classification
Product Type
Wireless and radiating connector
Product Brand
HELIAX® | RingFlare™
General Specifications
Body Style
Straight
Cable Family
LDF4-50A
Inner Contact Attachment Method
Captivated
Inner Contact Plating
Gold
Interface
N Female
Mounting Angle
Straight
Outer Contact Attachment Method
Ring-flare
Outer Contact Plating
Trimetal
Pressurizable
No
Dimensions
Length
71.12 mm | 2.8 in
Diameter
22.098 mm | 0.87 in
Nominal Size
1/2 in
Outline Drawing
Click on image to enlarge.
Electrical Specifications
3rd Order IMD at Frequency
-120 dBm @ 910 MHz
3rd Order IMD Test Method
Two +43 dBm carriers
Insertion Loss, typical
0.05 dB
Attenuation, Ambient Temperature
20 °C | 68 °F
Average Power at Frequency
0.6 kW @ 900 MHz
Cable Impedance
50 ohm
Connector Impedance
50 ohm
dc Test Voltage
2000 V
Inner Contact Resistance, maximum
2 mOhm
Insulation Resistance, minimum
5000 mOhm
Operating Frequency Band
0 – 8800 MHz
Outer Contact Resistance, maximum
0.3 mOhm
Peak Power, maximum
10 kW
RF Operating Voltage, maximum (vrms)
707 V
Shielding Effectiveness
-110 dB
Return Loss/VSWR
Frequency Band
VSWR
Return Loss (dB)
45–1000 MHz
1.04
36.00
1000–2500 MHz
1.06
31.00
2500–5000 MHz
1.10
27.00
5000–7000 MHz
1.14
24.00
7000–8000 MHz
1.20
21.00
8000–8800 MHz
1.33
17.00
Mechanical Specifications
Attachment Durability
25 cycles
Connector Retention Tensile Force
889.644 N | 200 lbf
Connector Retention Torque
5.423 N-m | 48 in lb
Insertion Force
66.723 N | 15 lbf
Insertion Force Method
MIL-C-39012C-3.12, 4.6.9
Interface Durability
50 cycles
Interface Durability Method
IEC 61169-16:9.5
Mechanical Shock Test Method
MIL-STD-202, Method 213, Test Condition I
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