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Obsolete
Replaced By:
CA-DMDF
7-16 DIN Male to 7-16 DIN Female Adapter
TA-DMDF
7-16 DIN Male to 7-16 DIN Female Low-PIM Adapter
For other alternatives, please contact us for more information.

TA-PDMDF

7-16 DIN Male to 7-16 DIN Female Adapter

Product Classification  
Product Type   Adapter
   
General Specifications  
Interface   7-16 DIN Male
Interface 2   7-16 DIN Female
Body Style   Straight
Mounting Angle   Straight
   
Electrical Specifications  
Connector Impedance   50 ohm
Operating Frequency Band   0 – 6000 MHz
Average Power at Frequency   1,300.0 W @ 900 MHz
3rd Order IMD, typical   -163 dBc @ 910 MHz
3rd Order IMD Test Method   Two +43 dBm carriers
RF Operating Voltage, maximum (vrms)   1200.00 V
dc Test Voltage   4000 V
Outer Contact Resistance, maximum   1.50 mOhm
Inner Contact Resistance, maximum   0.40 mOhm
Insulation Resistance, minimum   10000 MOhm
Peak Power, maximum   28.80 kW
   
Outline Drawing  
Click on image below to enlarge.
   
Mechanical Specifications  
Coupling Nut Proof Torque   50.00 N-m   |   36.88 ft lb
Coupling Nut Proof Torque Method   IEC 61169-4:9.3.6
Coupling Nut Retention Force   800.00 N   |   179.85 lbf
Coupling Nut Retention Force Method   IEC 61169-4:9.3.11
Inner Contact Plating   Silver
Insertion Force   200.00 N   |   44.96 lbf
Insertion Force Method   IEC 61169-4:15.2.4
Interface Durability   500 cycles
Interface Durability Method   IEC 61169-4:9.5
Outer Contact Plating   Silver
Pressurizable   No
   
Dimensions  
Diameter   31.75 mm   |   1.25 in
Length   38.47 mm   |   1.51 in
Weight   132.00 g   |   0.29 lb
Width   31.75 mm   |   1.25 in
   
Environmental Specifications  
Operating Temperature   -55 °C to +85 °C (-67 °F to +185 °F)
Storage Temperature   -65 °C to +125 °C (-85 °F to +257 °F)
Mechanical Shock Test Method   IEC 60068-2-27
Climatic Sequence Test Method   IEC 60068-1
Damp Heat Steady State Test Method   IEC 60068-2-3
Thermal Shock Test Method   IEC 60068-2-14
Vibration Test Method   IEC 60068-2-6
Corrosion Test Method   IEC 60068-2-11
   
Standard Conditions  
Attenuation, Ambient Temperature   20 °C   |   68 °F
Average Power, Ambient Temperature   40 °C   |   104 °F
Average Power, Inner Conductor Temperature   100 °C   |   212 °F
Return Loss/VSWR
Frequency BandVSWRReturn Loss (dB)
824–960 MHz1.0145.00
1710–1880 MHz1.0144.00
1850–1990 MHz1.0143.00
1910–2200 MHz1.0240.00
2200–2700 MHz1.0240.00

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