Interface Specifications


The specifications below are general specifications for all 1.4/4.4 connectors. Specific Data for VSWR, Insertion Loss, R.F. Leakage, etc. are available from the factory upon request. Specifications in the following table are recommended for any procurement documents or drawings. In the event of any conflict between these specifications and General Specifications DIN 47298, these specifications shall govern. These specifications are subject to change according to the latest revision.
Requirement General Specifications
Standard Materials STEEL
corrosion resistant 1.4305 per DIN EN 10088 (ASTM-A484 or ASTM-A-582-80).
ALUMINUM
AlMg4.5Mn per DIN DIN EN 1706, AlMgSi0.5 per DIN EN 1706, AlMgSi1 per DIN EN 1706 (6061-T6 per QQ-A-225/8).
BRASS
CuZn39Pb3 per DIN 17660 (QQ-B-626 (ASTM-B124), half hard).
COPPER BERYLLIUM
33-25 CuBe2PbH per DIN17666(DIN CEN/TS;DIN SPEC 9700)(QQ-C530).
TFE
Fluorocarbon per DIN 52900 (MIL-P-19468 and L-P403).
SILICONE RUBBER
per DIN ISO 3601(A-A-59588,Class IIB) Gr. 50 - 75.
BORRIUM NITRITE Dielectric for high power applications per inhouse specification.
Finish COPPER BERYLLIUM
Center Contacts shall be gold plated to a minimum thickness of .00005-inch in accordance with MIL-DTL-45204 Type II, Grade C.
STAINLESS STEEL
shall be passivated per ASTM-A967.
ALUMINUM
Conductive Parts shall have an iridited finish per MIL-DTL-5541.
Other parts, such as Coupling Nuts and Back-Bodies shall be anodized per MIL-A-8625.
BRASS
.00003 inch (0.8 μm) min.gold plating per MIL-DTL-45204, or nicle plating per QQ-N-290, as specified.
VARIOUS Imoloy .0001 inch (2.5 μm) min. plating, consisting of 55% Copper / 20% Zinc / 25% Tin (on special request).
Design The design shall be such that the outline dimensions are met. In addition, the assembled connector shall meet the interface dimensions.
Electrical
Frequency Range DC - 20.0 GHz
Insulation Resistance The insulation resistance shall not be less than 10,000 megohms.
Voltage Standing Wave Ratio (VSWR) 1.04 + .01 * f(GHz)
Contact Resistance The center contact resistance drop shall not exceed 8.0 milliohms and the outer contact resistance drop shall not exceed 0.5 milliohms.
Dielectric Withstanding Voltage The magnitude of the test voltage shall be 1,000 volts rms at sea level.
RF High Potential Withstanding Voltage RF High Potential Withstanding Voltage is not applicable.
RF Leakage RF Leakage is not applicable.
Insertion Loss Insertion Loss is not applicable.
Mechanical
Connector Durability The connector is to be tested and its mating connector shall be subjected to 100 insertions min.. Withdrawal cycles/minute are not applicable. The connector shall show no evidence of mechanical failure and the connector shall meet the mating characteristic requirements.
Cable Retention Force 56.2 pounds (250 N) min.
Coupling Nut Retention Force Not applicable for Female connectors. For male connectors, the axial force is 56.2 lbs (250 N) max.. The torque is 4.43 inch-pounds (0.5 Nm) max.
Force to Engage and Disengage The torque required to engage and disengage shall not exceed 4.43 inch-pounds (0.5 Nm).
Longitudinal Force max. Longitudinal force is 1.79 lbs (8.0 N) max.
Mating Characteristics See interface dimensions here. Applicable to Females only: oversize pin .0364 inch (.92 mm) max. dia., .0787 inch (2.0 mm) deep; max. insertion force with min. dia. pin is not applicable; withdrawal force 2.82 oz (0.78 N) min. with .0354 inch (0.9 mm) max. dia. pin.
Recommmended Mating Torque 13.3 inch-pounds (1.5 Nm)
Environmental
Corrosion (Salt Spray) Specification DIN - 47275 Part 4.
Vibration Specification DIN EN 60068.
Shock Specification DIN EN 60068; VDE 0468.
Thermal Shock Specification DIN - 47275 Part 4.
Moisture Resistance Moisture Resistance not applicable.
Corona Level Specification DIN - 47275 Part 3
The specifications below are general specifications for all 1.8/5.6 connectors. Specific Data for VSWR, Insertion Loss, R.F. leakage, etc., are available from the factory upon request. Specifications in the following table are recommended for any procurement documents or drawings. In the event of any conflict between these specifications and General Specifications DIN 47226, these specifications shall govern. These specifications are subject to change according to the latest revision.
Requirement General Specifications
Standard Materials STEEL
corrosion resistant 1.4305 per DIN EN 10088 (ASTM-A484 or ASTM-A-582-80).
ALUMINUM
AlMg4.5Mn per DIN EN 1706, AlMgSi0.5 per DIN EN 1706, AlMgSi1 per DIN EN 1706 (6061-T6 per QQ-A-225/8).
BRASS
CuZn39Pb3 per DIN 17660 (QQ-B-626 (ASTM-B124), half hard).
COPPER BERYLLIUM
33-25 CuBe2PbH per DIN 17666 (DIN CEN/TS;DIN SPEC 9700) (QQ-C530).
TFE
Fluorocarbon per DIN 52900 (MIL-P-19468 and L-P403).
SILICONE RUBBER
per DIN ISO 3601 (A-A-59588, Class IIB) Gr. 50 - 75.
BORRIUM NITRITE Dielectric for high power applications per inhouse specification.
Finish COPPER BERYLLIUM
Center Contacts shall be gold plated to a minimum thickness of .00005 inch in accordance with MIL-DTL-45204 Type II, Grade C.
STAINLESS STEEL
shall be passivated per ASTM-A967.
ALUMINUM
Conductive Parts shall have an iridited finish per MIL-DTL-5541.
Other parts, such as Coupling Nuts and Back-Bodies shall be anodized per MIL-A-8625.
BRASS
.00003 inch (0.8 μm) min. gold plating per MIL-DTL-45204, or nicle plating per QQ-N-290, as specified.
VARIOUS Imoloy .0001 inch (2.5 μm) min. plating, consisting of 55% Copper / 20% Zinc / 25% Tin (on special request).
Design The design shall be such that the outline dimensions are met. In addition, the assembled connector shall meet the interface dimensions.
Electrical
Frequency Range DC - 10.0 GHz
Insulation Resistance The insulation resistance shall not be less than 10,000 megohms.
Voltage Standing Wave Ratio (VSWR) 1.03 + .02 * f(GHz)
Contact Resistance The center contact resistance drop shall not exceed 4.0 milliohms and the outer contact resistance drop shall not exceed 2.0 milliohms.
Dielectric Withstanding Voltage The magnitude of the test voltage shall be 1,000 volts rms at sea level.
RF High Potential Withstanding Voltage RF High Potential Withstanding Voltage is not applicable. RF Leakage is not applicable.
RF Leakage -(100 - f(GHz)) dB
Insertion Loss Insertion Loss is not applicable.
Mechanical
Connector Durability The connector is to be tested and its mating connector shall be subjected to 500 insertions min.. Withdrawal cycles/minute are not applicable. The connector shall show no evidence of mechanical failure and the connector shall meet the mating characteristic requirements.
Cable Retention Force Cable Retention Force is not applicable.
Coupling Nut Retention Force Coupling Nut Retention Force is not applicable.
Force to Engage and Disengage Force to Engage and Disengage is not applicable.
Longitudinal Force max. Longitudinal force is not applicable.
Mating Characteristics See interface dimensions here. Applicable to Females only: oversize pin dia., insertion depth, insertion force with min. dia. pin are not applicable; withdrawal force 1.79 oz (0.498 N) min. with .382 inch (9.7 mm) max. dia. pin.
Recommmended Mating Torque Recommended Mating Torque is not applicable.
Environmental
Corrosion (Salt Spray) Specification MIL-STD-202, Method 101, Test Condition B. The salt solution shall be 5%.
Vibration Specification MIL-STD-202, Method 204, Test Condition B.
Shock Specification MIL-STD-202, Method 213, Test Condition I.
Thermal Shock Specification MIL-STD-202, Method 107, Test Condition B, except high temperature shall be +200°C.
Moisture Resistance Specification MIL-STD-202, Method 106. Step 7b (vibration) shall be omitted. Insulation resistance shall be 200 megohms min. within 5 minutes of removal from humidity.
Corona Level The connector shall not exhibit breakdown (corona) when the applied voltage is 200 volts rms and the altitude is 65,600 feet (20 km).
The specifications below are general specifications for all 1.8/5.6 connectors. Specific Data for VSWR, Insertion Loss, R.F. leakage, etc., are available from the factory upon request. Specifications in the following table are recommended for any procurement documents or drawings. In the event of any conflict between these specifications and General Specifications IEEE 287, these specifications shall govern. These specifications are subject to change according to the latest revision.
Requirement General Specifications
Standard Materials STEEL
corrosion resistant 1.4305 per DIN EN 10088 (ASTM-A484 or ASTM-A-582-80).
ALUMINUM
AlMg4.5Mn per DIN EN 1706, AlMgSi0.5 per DIN EN 1706, AlMgSi1 per DIN EN 1706 (6061-T6 per QQ-A-225/8).
BRASS
CuZn39Pb3 per DIN 17660 (QQ-B-626 (ASTM-B124), half hard).
COPPER BERYLLIUM
33-25 CuBe2PbH per DIN 17666 (DIN CEN/TS; DIN SPEC 9700) (QQ-C530).
TFE
Fluorocarbon per DIN 52900 (MIL-P-19468 and L-P403).
SILICONE RUBBER
per DIN ISO 3601 (A-A-59588, Class IIB) Gr. 50 - 75.
BORRIUM NITRITE Dielectric for high power applications per inhouse specification.
Finish COPPER BERYLLIUM
Center Contacts shall be gold plated to a minimum thickness of .00005 inch in accordance with MIL-DTL-45204 Type II, Grade C.
STAINLESS STEEL
shall be passivated per ASTM-A967.
ALUMINUM
Conductive Parts shall have an iridited finish per MIL-DTL-5541.
Other parts, such as Coupling Nuts and Back-Bodies shall be anodized per MIL-A-8625.
BRASS
.00003 inch (0.8 μm) min. gold plating per MIL-DTL-45204, or nicle plating per QQ-N-290, as specified.
VARIOUS Imoloy .0001 inch (2.5 μm) min. plating, consisting of 55% Copper / 20% Zinc / 25% Tin (on special request).
Design The design shall be such that the outline dimensions are met. In addition, the assembled connector shall meet the interface dimensions.
Electrical
Frequency Range DC - 65.0 GHz min.
Insulation Resistance The insulation resistance shall not be less than 5,000 megohms.
Voltage Standing Wave Ratio (VSWR) 22 dB (1.17:1)
Contact Resistance The center contact resistance is 2.2 milliohms and the outer contact resistance is 0.15 milliohms.
Dielectric Withstanding Voltage Not applicable.
RF High Potential Withstanding Voltage Not applicable. Leakage is not applicable.
RF Leakage -(100 - f(GHz)) dB
Insertion Loss 0.4 dB
Mechanical
Connect/Disconnect Life 5000 cycles
Maximum Insertion Force 0.9 N
Withdrawal Force 0.14 N min; 0.56 N max.
Coupling Torque 0.8 - 1.0 Nm
Maximum Safety Torque 1.6 Nm
Depth of Insertion 1.25 mm
Environmental
Corrosion (Salt Spray) Specification MIL-STD-202, Method 101, Test Condition B. The salt solution shall be 5%.
Vibration Specification MIL-STD-202, Method 204, Test Condition B.
Shock Specification MIL-STD-202, Method 213, Test Condition I.
Thermal Shock pecification MIL-STD-202, Method 107, Test Condition B, except high temperature shall be +200°C.
Moisture Resistance Specification MIL-STD-202, Method 106. Step 7b (vibration) shall be omitted. Insulation resistance shall be 200 megohms min. within 5 minutes of removal from humidity.
Corona Level The connector shall not exhibit breakdown (corona) when the applied voltage is 200 volts rms and the altitude is 65,600 feet (20 km).
The specifications below are general specifications for all 2/5.5 connectors. Specific Data for VSWR, Insertion loss, R.F. Leakage etc., are available from the factory upon request. Specifications in the following table are recommended for any procurement documents or drawings. In the event of any conflict between these specifications and other documentation, these specifications shall govern. These specifications are subject to change according to the latest revision.
Requirement General Specifications
Standard Materials STEEL
corrosion resistant 1.4305 per DIN EN 10088 (ASTM-A484 or ASTM-A-582-80).
ALUMINUM
AlMg4.5Mn per DIN EN 1706, AlMgSi0.5 per DIN EN 1706, AlMgSi1 per DIN EN 1706 (6061-T6 per QQ-A-225/8).
BRASS
CuZn39Pb3 per DIN 17660 (QQ-B-626 (ASTM-B124), half hard).
COPPER BERYLLIUM
33-25 CuBe2PbH per DIN 17666 (DIN CEN/TS; DIN SPEC 9700) (QQ-C530).
TFE
Fluorocarbon per DIN 52900 (MIL-P-19468 and L-P403).
SILICONE RUBBER
per DIN ISO 3601 (A-A-59588, Class IIB) Gr. 50 - 75.
BORRIUM NITRITE Dielectric for high power applications per inhouse specification.
Finish COPPER BERYLLIUM
Center Contacts shall be gold plated to a minimum thickness of .00005 inch in accordance with MIL-DTL-45204 Type II, Grade C.
STAINLESS STEEL
shall be passivated per ASTM-A967.
ALUMINUM
Conductive Parts shall have an iridited finish per MIL-DTL-5541.
Other parts, such as Coupling Nuts and Back-Bodies shall be anodized per MIL-A-8625.
BRASS
.00003 inch (0.8 μm) min. gold plating per MIL-DTL-45204, or nicle plating per QQ-N-290, as specified.
VARIOUS Imoloy .0001 inch (2.5 μm) min. plating, consisting of 55% Copper / 20% Zinc / 25% Tin (on special request).
Design The design shall be such that the outline dimensions are met. In addition, the assembled connector shall meet the interface dimensions.
Electrical
Frequency Range DC - 14.0 GHz min.
Insulation Resistance The insulation resistance shall not be less than 5,000 megohms.
Voltage Standing Wave Ratio (VSWR) 1.03 + .005 * f(GHz)
Contact Resistance The center contact resistance drop shall not exceed 4.0 milliohms and the outer contact resistance drop shall not exceed 1.5 milliohms and the outer contact resistance drop shall not exceed 2.0 milliohms..
Dielectric Withstanding Voltage The magnitude of the test voltage shall be 1,500 volts rms at sea level.
RF High Potential Withstanding Voltage RF High Potential Withstanding Voltage is 1,000 volts rms at 5 MHz. Leakage is not applicable.
RF Leakage -(90 - f(GHz)) dB
Insertion Loss (.05 SQT(f(GHz)) dB
Mechanical
Connector Durability The connector is to be tested and its mating connector shall be subjected to 500 insertions and withdrawal cycles at 12 cycles per minute max. The connector shall show no evidence of mechanical failure and the connector shall meet the mating characteristic requirements.
Cable Retention Force Cable Retention Force is not applicable.
Coupling Nut Retention Force Coupling Nut Retention Force is not applicable.
Force to Engage and Disengage Force to Engage and Disengage is not applicable.
Longitudinal Force max. Longitudinal force is not applicable.
Mating Characteristics Mating Characeristics are not applicable.
Recommmended Mating Torque Recommended Mating Torque is not applicable.
Environmental
Corrosion (Salt Spray) Specification MIL-STD-202, Method 101, Test Condition B. The salt solution shall be 5%.
Vibration Specification MIL-STD-202, Method 204, Test Condition B.
Shock Specification MIL-STD-202, Method 213, Test Condition I.
Thermal Shock Specification MIL-STD-202, Method 107, Test Condition B, except high temperature shall be +200°C.
Moisture Resistance Specification MIL-STD-202, Method 106. Step 7b (vibration) shall be omitted. Insulation resistance shall be 200 megohms min. within 5 minutes of removal from humidity.
Corona Level Not applicable.
The specifications below are general specifications for all 2.4 mm connectors. Specific Data for VSWR, Insertion loss, R.F. Leakage etc., are available from the factory upon request. Specifications in the following table are recommended for any procurement documents or drawings. In the event of any conflict between these specifications and other documentation, these specifications shall govern. These specifications are subject to change according to the latest revision.
Requirement General Specifications
Standard Materials STEEL
corrosion resistant 1.4305 per DIN EN 10088 (ASTM-A484 or ASTM-A-582-80).
ALUMINUM
AlMg4.5Mn per DIN EN 1706, AlMgSi0.5 per DIN EN 1706, AlMgSi1 per DIN EN 1706 (6061-T6 per QQ-A-225/8).
BRASS
CuZn39Pb3 per DIN 17660 (QQ-B-626 (ASTM-B124), half hard).
COPPER BERYLLIUM
33-25 CuBe2PbH per DIN 17666 (DIN CEN/TS; DIN SPEC 9700) (QQ-C530).
TFE
Fluorocarbon per DIN 52900 (MIL-P-19468 and L-P403).
SILICONE RUBBER
per DIN ISO 3601 (A-A-59588, Class IIB) Gr. 50 - 75.
BORRIUM NITRITE Dielectric for high power applications per inhouse specification.
Finish COPPER BERYLLIUM
Center Contacts shall be gold plated to a minimum thickness of .00005 inch in accordance with MIL-DTL-45204 Type II, Grade C.
STAINLESS STEEL
shall be passivated per ASTM-A967.
ALUMINUM
Conductive Parts shall have an iridited finish per MIL-DTL-5541.
Other parts, such as Coupling Nuts and Back-Bodies shall be anodized per MIL-A-8625.
BRASS
.00003 inch (0.8 μm) min. gold plating per MIL-DTL-45204, or nicle plating per QQ-N-290, as specified.
VARIOUS Imoloy .0001 inch (2.5 μm) min. plating, consisting of 55% Copper / 20% Zinc / 25% Tin (on special request).
Design The design shall be such that the outline dimensions are met. In addition, the assembled connector shall meet the interface dimensions.
Electrical
Frequency Range DC - 50.0 GHz min.
Insulation Resistance The insulation resistance shall not be less than 5,000 megohms.
Voltage Standing Wave Ratio (VSWR) 24 dB (1.13:1)
Contact Resistance The center contact resistance is 3.0 milliohms and the outer contact resistance is 0.15 milliohms.
Dielectric Withstanding Voltage Not applicable.
RF High Potential Withstanding Voltage Not applicable.
RF Leakage -(100 - f(GHz)) dB
Insertion Loss 0.15 dB
Mechanical
Connect/Disconnect Life 5000 cycles
Maximum Insertion Force 0.9 N
Withdrawal Force 0.14 N min; 0.56 N max.
Coupling Torque 0.8 - 1.0 Nm
Maximum Safety Torque 1.6 Nm
Depth of Insertion 1.25 mm
Environmental
Corrosion (Salt Spray) Specification MIL-STD-202, Method 101, Test Condition B. The salt solution shall be 5%.
Vibration Specification MIL-STD-202, Method 204, Test Condition B.
Shock Specification MIL-STD-202, Method 213, Test Condition I.
Thermal Shock Specification MIL-STD-202, Method 107, Test Condition B, except high temperature shall be +200°C.
Moisture Resistance Specification MIL-STD-202, Method 106. Step 7b (vibration) shall be omitted. Insulation resistance shall be 200 megohms min. within 5 minutes of removal from humidity.
Corona Level The connector shall not exhibit breakdown (corona) when the applied voltage is 200 volts rms and the altitude is 70,000 feet.
The specifications below are general specifications for all 2.92 mm connectors. Specific Data for VSWR, Insertion loss, R.F. Leakage etc. are available from the factory upon request. Specifications in the following table are recommended for any procurement documents or drawings. In the event of any conflict between these specifications and other documentation, these specifications shall govern. These specifications are subject to change according to the latest revision.
Requirement General Specifications
Standard Materials STEEL
corrosion resistant 1.4305 per DIN EN 10088 (ASTM-A484 or ASTM-A-582-80).
ALUMINUM
AlMg4.5Mn per DIN EN 1706, AlMgSi0.5 per DIN EN 1706, AlMgSi1 per DIN EN 1706 (6061-T6 per QQ-A-225/8).
BRASS
CuZn39Pb3 per DIN 17660 (QQ-B-626 (ASTM-B124), half hard).
COPPER BERYLLIUM
33-25 CuBe2PbH per DIN 17666 (DIN CEN/TS; DIN SPEC 9700) (QQ-C530).
TFE
Fluorocarbon per DIN 52900 (MIL-P-19468 and L-P403).
SILICONE RUBBER
per DIN ISO 3601 (A-A-59588, Class IIB) Gr. 50 - 75.
BORRIUM NITRITE Dielectric for high power applications per inhouse specification.
Finish COPPER BERYLLIUM
Center Contacts shall be gold plated to a minimum thickness of .00005 inch in accordance with MIL-DTL-45204 Type II, Grade C.
STAINLESS STEEL
shall be passivated per ASTM-A967.
ALUMINUM
Conductive Parts shall have an iridited finish per MIL-DTL-5541.
Other parts, such as Coupling Nuts and Back-Bodies shall be anodized per MIL-A-8625.
BRASS
.00003 inch (0.8 μm) min. gold plating per MIL-DTL-45204, or nicle plating per QQ-N-290, as specified.
VARIOUS Imoloy .0001 inch (2.5 μm) min. plating, consisting of 55% Copper / 20% Zinc / 25% Tin (on special request).
Design The design shall be such that the outline dimensions are met. In addition, the assembled connector shall meet the interface dimensions.
Electrical
Frequency Range DC - 40.0 GHz min.
Insulation Resistance The insulation resistance is not applicable.
Voltage Standing Wave Ratio (VSWR) 1.07:1 max. to 40.0 GHz
Contact Resistance The center contact resistance drop shall not exceed 0.75 milliohms and the outer contact resistance drop shall not exceed 0.13 milliohms.
Dielectric Withstanding Voltage The magnitude of the test voltage shall be 1,000 volts rms at sea level.
RF High Potential Withstanding Voltage RF high potential withstanding voltage is not applicable. Leakage is not applicable.
RF Leakage -(100 - f(GHz)) dB
Insertion Loss (.025 SQT (f(GHz))) dB
Mechanical
Connect/Disconnect Life 2,000 Cycles
Maximum Insertion Force 4.5 N
Withdrawal Force 0.4 N min. / 3.3 N max.
Coupling Torque 0.6 - 1.0 Nm
Maximum Safety Torque 1.8 Nm
Depth of Insertion

1.5 mm

Environmental
Corrosion (Salt Spray) Specification MIL-STD-202, Method 101, Test Condition B. The salt solution shall be 5%.
Vibration Specification MIL-STD-202, Method 204, Test Condition B.
Shock Specification MIL-STD-202, Method 213, Test Condition I.
Thermal Shock pecification MIL-STD-202, Method 107, Test Condition B, except high temperature shall be +200°C.
Moisture Resistance Specification MIL-STD-202, Method 106. Step 7b (vibration) shall be omitted. Insulation resistance shall be 200 megohms min. within 5 minutes of removal from humidity.
Corona Level Corona level is not applicable.
The specifications below are general specifications for all 3.5 mm connectors. Specific Data for VSWR, Insertion loss, R.F. Leakage etc., are available from the factory upon request. Specifications in the following table are recommended for any procurement documents or drawings. In the event of any conflict between these specifications and other documentation, these specifications shall govern. These specifications are subject to change according to the latest revision.
Requirement General Specifications
Standard Materials STEEL
corrosion resistant 1.4305 per DIN EN 10088 (ASTM-A484 or ASTM-A-582-80).
ALUMINUM
AlMg4.5Mn per DIN EN 1706, AlMgSi0.5 per DIN EN 1706, AlMgSi1 per DIN EN 1706 (6061-T6 per QQ-A-225/8).
BRASS
CuZn39Pb3 per DIN 17660 (QQ-B-626 (ASTM-B124), half hard).
COPPER BERYLLIUM
33-25 CuBe2PbH per DIN 17666 (DIN CEN/TS; DIN SPEC 9700) (QQ-C530).
TFE
Fluorocarbon per DIN 52900 (MIL-P-19468 and L-P403).
SILICONE RUBBER
per DIN ISO 3601 (A-A-59588, Class IIB) Gr. 50 - 75.
BORRIUM NITRITE Dielectric for high power applications per inhouse specification.
Finish COPPER BERYLLIUM
Center Contacts shall be gold plated to a minimum thickness of .00005 inch in accordance with MIL-DTL-45204 Type II, Grade C.
STAINLESS STEEL
shall be passivated per ASTM-A967.
ALUMINUM
Conductive Parts shall have an iridited finish per MIL-DTL-5541.
Other parts, such as Coupling Nuts and Back-Bodies shall be anodized per MIL-A-8625.
BRASS
.00003 inch (0.8 μm) min. gold plating per MIL-DTL-45204, or nicle plating per QQ-N-290, as specified.
VARIOUS Imoloy .0001 inch (2.5 μm) min. plating, consisting of 55% Copper / 20% Zinc / 25% Tin (on special request).
Design The design shall be such that the outline dimensions are met. In addition, the assembled connector shall meet the interface dimensions.
Electrical
Frequency Range DC - 33.0 GHz min.
Insulation Resistance The insulation resistance shall not be less than 5,000 megohms.
Voltage Standing Wave Ratio (VSWR) 32 dB (1.05:1)
Contact Resistance The center contact resistance is 0.75 milliohms and the outer contact resistance is 0.13 milliohms.
Dielectric Withstanding Voltage Not applicable.
RF High Potential Withstanding Voltage Not applicable. Leakage is not applicable.
RF Leakage -(100 - f(GHz)) dB
Insertion Loss 0.30 dB @ 33.0 GHz
Mechanical
Connect/Disconnect Life 3000 cycles
Maximum Insertion Force 5.6 N
Withdrawal Force 4.6 N max.
Coupling Torque 1.3 - 1.7 Nm
Maximum Safety Torque Nm
Depth of Insertion 1.5 mm
Environmental
Corrosion (Salt Spray) Specification MIL-STD-202, Method 101, Test Condition B. The salt solution shall be 5%.
Vibration Specification MIL-STD-202, Method 204, Test Condition B.
Shock Specification MIL-STD-202, Method 213, Test Condition I.
Thermal Shock pecification MIL-STD-202, Method 107, Test Condition B, except high temperature shall be +200°C.
Moisture Resistance Specification MIL-STD-202, Method 106. Step 7b (vibration) shall be omitted. Insulation resistance shall be 200 megohms min. within 5 minutes of removal from humidity.
Corona Level The corona level is not applicable.
The specifications below are general specifications for all 7 mm connectors. Specific Data for VSWR, Insertion Loss, R.F. Leakage, etc., are available from the factory upon request. Specifications in the following table are recommended for any procurement documents or drawings. In the event of any conflict between these specifications and General Specifications IEC 457-2, these specifications shall govern. These specifications are subject to change according to the latest revision.
Requirement General Specifications
Standard Materials STEEL
corrosion resistant 1.4305 per DIN EN 10088 (ASTM-A484 or ASTM-A-582-80).
ALUMINUM
AlMg4.5Mn per DIN EN 1706, AlMgSi0.5 per DIN EN 1706, AlMgSi1 per DIN EN 1706 (6061-T6 per QQ-A-225/8).
BRASS
CuZn39Pb3 per DIN 17660 (QQ-B-626 (ASTM-B124), half hard).
COPPER BERYLLIUM
33-25 CuBe2PbH per DIN 17666 (DIN CEN/TS; DIN SPEC 9700) (QQ-C530).
TFE
Fluorocarbon per DIN 52900 (MIL-P-19468 and L-P403).
SILICONE RUBBER
per DIN ISO 3601 (A-A-59588, Class IIB) Gr. 50 - 75.
BORRIUM NITRITE Dielectric for high power applications per inhouse specification.
Finish COPPER BERYLLIUM
Center Contacts shall be gold plated to a minimum thickness of .00005 inch in accordance with MIL-DTL-45204 Type II, Grade C.
STAINLESS STEEL
shall be passivated per ASTM-A967.
ALUMINUM
Conductive Parts shall have an iridited finish per MIL-DTL-5541.
Other parts, such as Coupling Nuts and Back-Bodies shall be anodized per MIL-A-8625.
BRASS
.00003 inch (0.8 μm) min. gold plating per MIL-DTL-45204, or nicle plating per QQ-N-290, as specified.
VARIOUS Imoloy .0001 inch (2.5 μm) min. plating, consisting of 55% Copper / 20% Zinc / 25% Tin (on special request).
Design The design shall be such that the outline dimensions are met. In addition, the assembled connector shall meet the interface dimensions.
Electrical
Frequency Range DC - 18.0 GHz min.
Insulation Resistance The insulation resistance is not applicable.
Voltage Standing Wave Ratio (VSWR) 1.003 + .002 * f(GHz)
Contact Resistance The center contact resistance drop shall not exceed 1.0 milliohms and the outer contact resistance drop shall not exceed 0.1 milliohms.
Dielectric Withstanding Voltage The magnitude of the test voltage shall be 2,500 volts rms at sea level.
RF High Potential Withstanding Voltage The RF high potential withstanding voltage is 1,000 volts rms at 5 MHz. Leakage is not applicable.
RF Leakage -(120 - f(GHz)) dB
Insertion Loss (.007 SQT(f(GHz)) dB
Mechanical
Connector Durability The connector is to be tested and its mating connector shall be subjected to 5000 insertions. Withdrawal cycles not applicable. The connector shall show no evidence of mechanical failure and the connector shall meet the mating characteristic requirements.
Cable Retention Force Cable Retention Force is not applicable.
Coupling Nut Retention Force Coupling Nut Retention Force is not applicable.
Force to Engage and Disengage Force to Engage and Disengage is not applicable.
Longitudinal Force max. Longitudinal force is not applicable.
Mating Characteristics Mating Characteristics are not applicable.
Recommended Mating Torque 16 - 29 inch-pounds (1.8 - 3.3 Nm)
Environmental
Corrosion (Salt Spray) Specification MIL-STD-202, Method 101, Test Condition B. The salt solution shall be 5%.
Vibration Specification MIL-STD-202, Method 204, Test Condition B.
Shock Specification MIL-STD-202, Method 213, Test Condition I.
Thermal Shock pecification MIL-STD-202, Method 107, Test Condition B, except high temperature shall be +200°C.
Moisture Resistance Specification MIL-STD-202, Method 106. Step 7b (vibration) shall be omitted. Insulation resistance shall be 200 megohms min. within 5 minutes of removal from humidity.
Corona Level Corona level is not applicable.
The specifications below are general specifications for all 7/16 connectors. Specific Data for VSWR, Insertion Loss, R.F. Leakage, etc. are available from the factory upon request. Specifications in the following table are recommended for any procurement documents or drawings. In the event of any conflict between these specifications and General Specifications DIN 47223, these specifications shall govern. These specifications are subject to change according to the latest revision.
Requirement General Specifications
Standard Materials STEEL
corrosion resistant 1.4305 per DIN EN 10088 (ASTM-A484 or ASTM-A-582-80).
ALUMINUM
AlMg4.5Mn per DIN EN 1706, AlMgSi0.5 per DIN EN 1706, AlMgSi1 per DIN EN 1706 (6061-T6 per QQ-A-225/8).
BRASS
CuZn39Pb3 per DIN 17660 (QQ-B-626 (ASTM-B124), half hard).
COPPER BERYLLIUM
33-25 CuBe2PbH per DIN 17666 (DIN CEN/TS; DIN SPEC 9700) (QQ-C530).
TFE
Fluorocarbon per DIN 52900 (MIL-P-19468 and L-P403).
SILICONE RUBBER
per DIN ISO 3601 (A-A-59588, Class IIB) Gr. 50 - 75.
BORRIUM NITRITE Dielectric for high power applications per inhouse specification.
Finish COPPER BERYLLIUM
Center Contacts shall be gold plated to a minimum thickness of .00005 inch in accordance with MIL-DTL-45204 Type II, Grade C.
STAINLESS STEEL
shall be passivated per ASTM-A967.
ALUMINUM
Conductive Parts shall have an iridited finish per MIL-DTL-5541.
Other parts, such as Coupling Nuts and Back-Bodies shall be anodized per MIL-A-8625.
BRASS
.00003 inch (0.8 μm) min. gold plating per MIL-DTL-45204, or nicle plating per QQ-N-290, as specified.
VARIOUS Imoloy .0001 inch (2.5 μm) min. plating, consisting of 55% Copper / 20% Zinc / 25% Tin (on special request).
Design The design shall be such that the outline dimensions are met. In addition, the assembled connector shall meet the interface dimensions.
Electrical
Frequency Range DC - 7.5 GHz min.
Insulation Resistance The insulation resistance shall not be less than 1.000 megohms. (10 gigaohms, IEC-169-4)
Voltage Standing Wave Ratio (VSWR) 1.015 + .003 * f(GHz)
Contact Resistance The center contact resistance drop shall not exceed 0.8 milliohms and the outer contact resistance drop shall not exceed 1.5 milliohms.
Dielectric Withstanding Voltage The magnitude of the test voltage shall be 3,000 volts rms at sea level.
RF High Potential Withstanding Voltage The RF high potential withstanding voltage is 4,000 volts rms at 5 MHz. Leakage is not applicable.
RF Leakage RF Leakage is not applicable.
Insertion Loss (.05 SQT(f(GHz)) dB
Mechanical
Connector Durability The connector is to be tested and its mating connector shall be subjected to 500 insertion min. Withdrawal cycles / minute are not applicable. The connector shall show no evidence of mechanical failure and the connector shall meet the mating characteristic requirements.
Cable Retention Force 56.2 pounds (250 N) min.
Coupling Nut Retention Force Not applicable for Female connectors. For male connectors, the axial force is 22.5 lbs (100 N) max.. The torque is 221 inch-pounds (25 Nm) max.
Force to Engage and Disengage Force to Engage and Disengage is not applicable.
Longitudinal Force max. Longitudinal force is not applicable.
Mating Characteristics Applicable to Females only: oversize pin .2008 inch (5.10 mm) max. dia., .177 inch (4.50 mm) deep; insertion force max. with min. dia. pin is not applicable; withdrawal force 2.16 oz (.6 N) min. with .1953 inch (4.96 mm) max. dia. pin.
Recommended Mating Torque Recommended Mating Torque is not applicable.
Environmental
Corrosion (Salt Spray) Specification MIL-STD-202, Method 101, Test Condition B. The salt solution shall be 5%.
Vibration Specification MIL-STD-202, Method 204, Test Condition B.
Shock Specification MIL-STD-202, Method 213, Test Condition I.
Thermal Shock pecification MIL-STD-202, Method 107, Test Condition B, except high temperature shall be +200°C.
Moisture Resistance Specification MIL-STD-202, Method 106. Step 7b (vibration) shall be omitted. Insulation resistance shall be 200 megohms min. within 5 minutes of removal from humidity.
Corona Level The connector shall not exhibit breakdown (corona) when the applied voltage is 2800 volts rms and the altitude is 0 feet.
The specifications below are general specifications for all BMA connectors. Specific Data for VSWR, Insertion loss, R.F. Leakage etc. are available from the factory upon request. Specifications in the following table are recommended for any procurement documents or drawings. In the event of any conflict between these specifications and other documentation, these specifications shall govern. These specifications are subject to change according to the latest revision.
Requirement General Specifications
Standard Materials STEEL
corrosion resistant 1.4305 per DIN EN 10088 (ASTM-A484 or ASTM-A-582-80).
ALUMINUM
AlMg4.5Mn per DIN EN 1706, AlMgSi0.5 per DIN EN 1706, AlMgSi1 per DIN EN 1706 (6061-T6 per QQ-A-225/8).
BRASS
CuZn39Pb3 per DIN 17660 (QQ-B-626 (ASTM-B124), half hard).
COPPER BERYLLIUM
33-25 CuBe2PbH per DIN 17666 (DIN CEN/TS; DIN SPEC 9700) (QQ-C530).
TFE
Fluorocarbon per DIN 52900 (MIL-P-19468 and L-P403).
SILICONE RUBBER
per DIN ISO 3601 (A-A-59588, Class IIB) Gr. 50 - 75.
BORRIUM NITRITE Dielectric for high power applications per inhouse specification.
Finish COPPER BERYLLIUM
Center Contacts shall be gold plated to a minimum thickness of .00005 inch in accordance with MIL-DTL-45204 Type II, Grade C.
STAINLESS STEEL
shall be passivated per ASTM-A967.
ALUMINUM
Conductive Parts shall have an iridited finish per MIL-DTL-5541.
Other parts, such as Coupling Nuts and Back-Bodies shall be anodized per MIL-A-8625.
BRASS
.00003 inch (0.8 μm) min. gold plating per MIL-DTL-45204, or nicle plating per QQ-N-290, as specified.
VARIOUS Imoloy .0001 inch (2.5 μm) min. plating, consisting of 55% Copper / 20% Zinc / 25% Tin (on special request).
Design The design shall be such that the outline dimensions are met. In addition, the assembled connector shall meet the interface dimensions.
Electrical
Frequency Range DC - 22.0 GHz min.
Insulation Resistance The insulation resistance shall not be less than 5.000 megohms.
Voltage Standing Wave Ratio (VSWR) 1.05 + .009 * f(GHz)
Contact Resistance The center contact resistance drop shall not exceed 3.0 milliohms and the outer contact resistance drop shall not exceed 2.0 milliohms.
Dielectric Withstanding Voltage The magnitude of the test voltage shall be 1.000 volts rms at sea level.
RF High Potential Withstanding Voltage The RF high potential withstanding voltage is 670 volts rms at 5 MHz. Leakage is not applicable.
RF Leakage RF Leakage is not applicable.
Insertion Loss (.05 SQT(f(GHz)) dB
Mechanical
Connector Durability The connector is to be tested and its mating connector shall be subjected to 500 insertion min. Withdrawal cycles / minute are not applicable. The connector shall show no evidence of mechanical failure and the connector shall meet the mating characteristic requirements.
Cable Retention Force 6 pounds (26.7 N) min.
Coupling Nut Retention Force Not applicable for Female connectors. For male connectors, the axial force is 6 lbs (26.7 N) max.
Force to Engage and Disengage The torque required to engage shall not exceed 3 lbs. (13.4 N). The disengage force shall not exceed 3 lbs. (13.4 N) max.
Mating Characteristics Applicable to Females only: oversize pin .0373 inch (0.09 mm) max. dia., .045inch (1.15 mm) deep; insertion force max. with min. dia. pin is not applicable; withdrawal force 1.0 oz (2.8 N) min. with .0355 inch (0.9 mm) max. dia.pin.
Recommended Mating Torque Recommended Mating Torque is not applicable.
Environmental
Corrosion (Salt Spray) Specification MIL-STD-202, Method 101, Test Condition B. The salt solution shall be 5%.
Vibration Specification MIL-STD-202, Method 204, Test Condition B.
Shock Specification MIL-STD-202, Method 213, Test Condition I.
Thermal Shock pecification MIL-STD-202, Method 107, Test Condition B, except high temperature shall be +200°C.
Moisture Resistance Specification MIL-STD-202, Method 106. Step 7b (vibration) shall be omitted. Insulation resistance shall be 200 megohms min. within 5 minutes of removal from humidity.
Corona Level The connector shall not exhibit breakdown (corona) when the applied voltage is 335 volts rms and the altitude is 70.000 feet.
The specifications below are general specifications for all BNC connectors. Specific Data for VSWR, Insertion Loss, R.F. Leakage, etc. are available from the factory upon request. Specifications in the following table are recommended for any procurement documents or drawings. In the event of any conflict between these specifications and General Specifications MIL-C-39012, these specifications shall govern. These specifications are subject to change according to the latest revision.
Requirement General Specifications
Standard Materials STEEL
corrosion resistant 1.4305 per DIN EN 10088; ASTM-A582 (303), or 1.4404 (316L) respectively.
ALUMINUM
AlMg4.5Mn per DIN EN 1706, AlMgSi0.5 per DIN EN 1706, AlMgSi1 per DIN EN 1706 (6061-T6 per QQ-A-225/8).
BRASS
CuZn39Pb3 per DIN 17660 (QQ-B-626 (ASTM-B124), half hard).
COPPER BERYLLIUM
33-25 CuBe2PbH per DIN 17666 (DIN CEN/TS; DIN SPEC 9700) (QQ-C530).
TFE
Fluorocarbon per DIN 52900 (ASTM-D-1710), or Thermoplast per DIN EN ISO 10350, or PEI per in-house specifi cation respectively for higher temperature applications.
SILICONE RUBBER
per DIN ISO 3601 (A-A-59588, Class IIB) Gr. 50 - 75.
BORRIUM NITRITE Dielectric for high power applications per inhouse specification.
Finish COPPER BERYLLIUM
Center Contacts shall be gold plated to a minimum thickness of .00005-inch in accordance with MIL-DTL-45204 Type II, Grade C.
STAINLESS STEEL
shall be passivated per ASTM-A967.
ALUMINUM
Conductive Parts shall have an iridited finish per MIL-DTL-5541.
Other parts, such as Coupling Nuts and Back-Bodies shall be anodized per MIL-A-8625.
BRASS
.00003 inch (0.8 μm) min. gold plating per MIL-DTL-45204, or nicle plating per QQ-N-290, as specified.
VARIOUS Imoloy .0001 inch (2.5 μm) min. plating, consisting of 55% Copper / 20% Zinc / 25% Tin (on special request).
Design The design shall be such that the outline dimensions in this catalog are met. In addition, the assembled connector shall meet the interface dimensions.
Electrical
Frequency Range DC - 10.0 GHz min.
Insulation Resistance The insulation resistance shall not be less than 5.000 megohms.
Voltage Standing Wave Ratio (VSWR) 1.06 + .01 * f(GHz)
Contact Resistance The center contact resistance drop shall not exceed 1.5 milliohms and the outer contact resistance drop shall not exceed 1.0 milliohms.
Dielectric Withstanding Voltage The magnitude of the test voltage shall be 1,500 volts rms at sea level.
RF High Potential Withstanding Voltage The RF high potential withstanding voltage is 1,000 volts rms at 5 MHz. Leakage is not applicable.
RF Leakage -55 dB min. (at 2 - 3 GHz)
Insertion Loss 0.2 dB max. at 3GHz
Mechanical
Connector Durability The connector is to be tested and its mating connector shall be subjected to 500 insertion and withdrawal cycles at 12 cycles per minute max. The connector shall show no evidence of mechanical failure and the connector shall meet the mating characteristic requirements.
Cable Retention Force 40 pounds (178 N) min.
Coupling Nut Retention Force Not applicable for Female connectors. For male connectors, the axial force is 100 lbs (445 N) max.. The max. torque is not applicable.
Force to Engage and Disengage The torque required to engage and disengage shall not exceed 2.5 inch-pounds (0.282 Nm).
Longitudinal Force max. Longitudinal force is 3 lbs. (13.3 N).
Mating Characteristics See interface dimensions shown on next page. Applicable to Females only: oversize pin .055 inch (1.4 mm) max. dia. pin; .080 inch (2.03 mm) deep; insertion force 2 lbs. (8.9 N) max. with .054 inch (1.37 mm) min. dia. pin; withdrawal force 2.00 oz (.556 N) min. with .052 inch (1.32 mm) max. dia. pin.
Recommended Mating Torque Recommended Mating Torque is not applicable.
Environmental
Corrosion (Salt Spray) Specification MIL-STD-202, Method 101, Test Condition B. The salt solution shall be 5%.
Vibration Specification MIL-STD-202, Method 204, Test Condition B.
Shock Specification MIL-STD-202, Method 213, Test Condition I.
Thermal Shock Specification MIL-STD-202, Method 107, Test Condition B, except high temperature shall be +200°C.
Moisture Resistance Specification MIL-STD-202, Method 106. Step 7b (vibration) shall be omitted. Insulation resistance shall be 200 megohms min. within 5 minutes of removal from humidity.
Corona Level The connector shall not exhibit breakdown (corona) when the applied voltage is 375 volts rms and the altitude is 70,000 feet.
The specifications below are general specifications for all C connectors. Specific Data for VSWR, Insertion Loss, R.F. Leakage, etc. are available from the factory upon request. Specifications in the following table are recommended for any procurement documents or drawings. In the event of any conflict between these specifications and General Specifications MIL-PRF-39012, these specifications shall govern. These specifications are subject to change according to the latest revision.
Requirement General Specifications
Standard Materials STEEL
corrosion resistant 1.4305 per DIN EN 10088; ASTM-A582 (303), or 1.4404 (316L) respectively.
ALUMINUM
AlMg4.5Mn per DIN EN 1706, AlMgSi0.5 per DIN EN 1706, AlMgSi1 per DIN EN 1706 (6061-T6 per QQ-A-225/8).
BRASS
CuZn39Pb3 per DIN 17660 (QQ-B-626 (ASTM-B124), half hard).
COPPER BERYLLIUM
33-25 CuBe2PbH per DIN 17666 (DIN CEN/TS; DIN SPEC 9700) (QQ-C530).
TFE
Fluorocarbon per DIN 52900 (ASTM-D-1710).
SILICONE RUBBER
per DIN ISO 3601 (A-A-59588, Class IIB) Gr. 50 - 75.
BORRIUM NITRITE Dielectric for high power applications per inhouse specification.
Finish COPPER BERYLLIUM
Center Contacts shall be gold plated to a minimum thickness of .00005 inch in accordance with ASTM-B-488, Type III, Code C, Class 1.25
STAINLESS STEEL
shall be passivated per ASTM-A967.
ALUMINUM
Conductive Parts shall have an iridited finish per MIL-DTL-5541.
Other parts, such as Coupling Nuts and Back-Bodies shall be anodized per MIL-A-8625.
BRASS
.00003 inch (0.8 μm) min. gold plating per MIL-DTL-45204, or nicle plating per QQ-N-290, as specified.
VARIOUS Imoloy .0001 inch (2.5 μm) min. plating, consisting of 55% Copper / 20% Zinc / 25% Tin (on special request).
Design The design shall be such that the outline dimensions are met. In addition, the assembled connector shall meet the interface dimensions.
Electrical
Frequency Range DC - 10.0 GHz min.
Insulation Resistance The insulation resistance shall not be less than 5.000 megohms.
Voltage Standing Wave Ratio (VSWR) 1.03 + 0.01 * f(GHz).
Contact Resistance The center contact resistance drop shall not exceed 1.0 milliohms and the outer contact resistance drop shall not exceed 0.35 milliohms.
Dielectric Withstanding Voltage The magnitude of the test voltage shall be 3,000 volts rms at sea level.
RF High Potential Withstanding Voltage The RF high potential withstanding voltage is 2,500 volts rms at 5 MHz. Leakage is not applicable.
RF Leakage -55 dB min. (at 2 - 3 GHz).
Insertion Loss (.05 SQT(f(GHz))) dB
Mechanical
Connector Durability The connector is to be tested and its mating connector shall be subjected to 500 insertion and withdrawal cycles at 12 cycles per minute max. The connector shall show no evidence of mechanical failure and the connector shall meet the mating characteristic requirements.
Cable Retention Force 90 pounds (400 N) min.
Coupling Nut Retention Force Not applicable for Female connectors. For male connectors, the axial force is 100 lbs (445 N) max.. The max. torque is not applicable.
Force to Engage and Disengage The torque required to engage and disengage shall not exceed 4 inch-pounds (0.452 Nm).
Longitudinal Force max. Longitudinal force is 4.5 lbs. (20 N).
Mating Characteristics

See interface dimensions shown on next page. Applicable to Females only: oversize pin .093 inch (2.36 mm) max. dia.,.125 inch (3.2 mm) deep; insertion force 2 lbs. (8.9 N) max. with .092 inch (2.34 mm) min. dia. pin; withdrawal force 2.00 oz (.556 N) min. with .090 inch (2.29 mm) max. dia. pin.

Recommended Mating Torque Recommended Mating Torque is not applicable.
Environmental
Corrosion (Salt Spray) Specification MIL-STD-202, Method 101, Test Condition B. The salt solution shall be 5%.
Vibration Specification MIL-STD-202, Method 204, Test Condition B.
Shock Specification MIL-STD-202, Method 213, Test Condition I.
Thermal Shock pecification MIL-STD-202, Method 107, Test Condition B, except high temperature shall be +200°C.
Moisture Resistance Specification MIL-STD-202, Method 106. Step 7b (vibration) shall be omitted. Insulation resistance shall be 200 megohms min. within 5 minutes of removal from humidity.
Corona Level The connector shall not exhibit breakdown (corona) when the applied voltage is 750 volts rms and the altitude is 70,000 feet.
The specifications below are general specifications for all HN connectors. Specific Data for VSWR, Insertion Loss, R.F. Leakage, etc. are available from the factory upon request. Specifications in the following table are recommended for any procurement documents or drawings. In the event of any conflict between these specifications and General Specifications MIL-C-3643, these specifications shall govern. The paragraph numbers refer to the associated requirement paragraphs of MIL-DTL-3643. These specifications are subject to change according to the latest revision.
Requirement General Specifications
Standard Materials STEEL
corrosion resistant 1.4305 per DIN EN 10088 (ASTM-A484 or ASTM-A-582-80).
ALUMINUM
AlMg4.5Mn per DIN EN 1706, AlMgSi0.5 per DIN EN 1706, AlMgSi1 per DIN EN 1706 (6061-T6 per QQ-A-225/8).
BRASS
CuZn39Pb3 per DIN 17660 (QQ-B-626 (ASTM-B124), half hard).
COPPER BERYLLIUM
33-25 CuBe2PbH per DIN 17666 (DIN CEN/TS; DIN SPEC 9700) (QQ-C530).
TFE
Fluorocarbon per DIN 52900 (MIL-P-19468 and L-P403).
SILICONE RUBBER
per DIN ISO 3601 (A-A-59588, Class IIB) Gr. 50 - 75.
BORRIUM NITRITE Dielectric for high power applications per inhouse specification.
Finish COPPER BERYLLIUM
Center Contacts shall be gold plated to a minimum thickness of .00005 inch in accordance with MIL-DTL-45204 Type II, Grade C.
STAINLESS STEEL
shall be passivated per ASTM-A967.
ALUMINUM
Conductive Parts shall have an iridited finish per MIL-DTL-5541.
Other parts, such as Coupling Nuts and Back-Bodies shall be anodized per MIL-A-8625.
BRASS
.00003 inch (0.8 μm) min. gold plating per MIL-DTL-45204, or nicle plating per QQ-N-290, as specified.
VARIOUS Imoloy .0001 inch (2.5 μm) min. plating, consisting of 55% Copper / 20% Zinc / 25% Tin (on special request).
Design The design shall be such that the outline dimensions are met. In addition, the assembled connector shall meet the interface dimensions.
Electrical
Frequency Range DC - 8.0 GHz min.
Insulation Resistance The insulation resistance shall not be less than 5.000 megohms.
Voltage Standing Wave Ratio (VSWR) 1.06 + .007 * f(GHz)
Contact Resistance The center contact resistance drop shall not exceed 1.0 milliohms and the outer contact resistance drop shall not exceed 0.2 milliohms.
Dielectric Withstanding Voltage The magnitude of the test voltage shall be 5,000 volts rms at sea level.
RF High Potential Withstanding Voltage The RF high potential withstanding voltage is 1,500 volts rms at 5 MHz. Leakage is not applicable.
RF Leakage -(95 - f(GHz)) dB
Insertion Loss (.05 SQT (f(GHz))) dB
Mechanical
Connector Durability The connector is to be tested and its mating connector shall be subjected to 500 insertion and withdrawal cycles at 12 cycles per minute max. The connector shall show no evidence of mechanical failure and the connector shall meet the mating characteristic requirements.
Cable Retention Force 150 pounds (667 N) min.
Coupling Nut Retention Force Not applicable for Female connectors. For male connectors, the axial force is 100 lbs (445 N) max. The torque 30 inch-pounds (3.4 Nm) max.
Force to Engage and Disengage The torque required to engage and disengage shall not exceed 6.2 inch-pounds (0.7 Nm).
Longitudinal Force max. Longitudinal force is not applicable.
Mating Characteristics See interface mating dimensionshere ».
Recommended Mating Torque 15 - 18 inch-pounds (1.7 - 2.0 Nm)
Environmental
Corrosion (Salt Spray) Specification MIL-STD-202, Method 101, Test Condition B. The salt solution shall be 5%.
Vibration Specification MIL-STD-202, Method 204, Test Condition B.
Shock Specification MIL-STD-202, Method 213, Test Condition I.
Thermal Shock pecification MIL-STD-202, Method 107, Test Condition B, except high temperature shall be +200°C.
Moisture Resistance Specification MIL-STD-202, Method 106. Step 7b (vibration) shall be omitted. Insulation resistance shall be 200 megohms min. within 5 minutes of removal from humidity.
Corona Level Corona level is not applicable.
The specifications below are general specifications for all N connectors. Specific Data for VSWR, Insertion Loss, R.F. Leakage, etc. are available from the factory upon request. Specifications in the following table are recommended for any procurement documents or drawings. In the event of any conflict between these specifications and General Specifications MIL-C-39012, these specifications shall govern. These specifications are subject to change according to the latest revision.
Requirement General Specifications
Standard Materials STEEL
corrosion resistant 1.4305 per DIN EN 10088 (ASTM-A484 or ASTM-A-582-80).
ALUMINUM
AlMg4.5Mn per DIN EN 1706, AlMgSi0.5 per DIN EN 1706, AlMgSi1 per DIN EN 1706 (6061-T6 per QQ-A-225/8).
BRASS
CuZn39Pb3 per DIN 17660 (QQ-B-626 (ASTM-B124), half hard).
COPPER BERYLLIUM
33-25 CuBe2PbH per DIN 17666 (DIN CEN/TS; DIN SPEC 9700) (QQ-C530).
TFE
Fluorocarbon per DIN 52900 (MIL-P-19468 and L-P403).
SILICONE RUBBER
per DIN ISO 3601 (A-A-59588, Class IIB) Gr. 50 - 75.
BORRIUM NITRITE Dielectric for high power applications per inhouse specification.
Finish COPPER BERYLLIUM
Center Contacts shall be gold plated to a minimum thickness of .00005 inch in accordance with MIL-DTL-45204 Type II, Grade C.
STAINLESS STEEL
shall be passivated per ASTM-A967.
ALUMINUM
Conductive Parts shall have an iridited finish per MIL-DTL-5541.
Other parts, such as Coupling Nuts and Back-Bodies shall be anodized per MIL-A-8625.
BRASS
.00003 inch (0.8 μm) min. gold plating per MIL-DTL-45204, or nicle plating per QQ-N-290, as specified.
VARIOUS Imoloy .0001 inch (2.5 μm) min. plating, consisting of 55% Copper / 20% Zinc / 25% Tin (on special request).
Design The design shall be such that the outline dimensions are met. In addition, the assembled connector shall meet the interface dimensions.
Electrical
Frequency Range DC - 18.0 GHz min., optional DC - 20.0 GHz
Insulation Resistance The insulation resistance shall not be less than 5,000 megohms.
Voltage Standing Wave Ratio (VSWR) 1.03 + .005 * f(GHz)
Contact Resistance The center contact resistance drop shall not exceed 1.0 milliohms and the outer contact resistance drop shall not exceed 0.2 milliohms.
Dielectric Withstanding Voltage The magnitude of the test voltage shall be 2,500 volts rms at sea level.
RF High Potential Withstanding Voltage The RF high potential withstanding voltage is 1,500 volts rms at 5 MHz. Leakage is not applicable.
RF Leakage -(90 - f(GHz)) dB
Insertion Loss (.05 SQT (f(GHz))) dB
Mechanical
Connector Durability The connector is to be tested and its mating connector shall be subjected to 500 insertion and withdrawal cycles at 12 cycles per minute max. The connector shall show no evidence of mechanical failure and the connector shall meet the mating characteristic requirements.
Cable Retention Force 75 pounds (333.6 N) min.
Coupling Nut Retention Force Not applicable for Female connectors. For male connectors, the axial force is 100 lbs (445 N) max.
The torque is 30 inch-pounds (3.4 Nm) max.
Force to Engage and Disengage The torque required to engage and disengage shall not exceed 6 inch-pounds (0.678 Nm).
Longitudinal Force max. Longitudinal force is not applicable.
Mating Characteristics

Applicable to Females only: oversize pin .067 inch (1.7 mm) max. dia.,.125 inch (3.2 mm) deep; insertion force 2 lbs. (8.9 N) max. with .066 inch (1.67 mm) min. dia. pin;
withdrawal force 1.00 oz (.278 N) min. with .0645 inch (1.64 mm) max. dia. pin.

Recommended Mating Torque 12 - 15 inch-pounds (1.4 - 1.7 Nm)
Environmental
Corrosion (Salt Spray) Specification MIL-STD-202, Method 101, Test Condition B. The salt solution shall be 5%.
Vibration Specification MIL-STD-202, Method 204, Test Condition B.
Shock Specification MIL-STD-202, Method 213, Test Condition I.
Thermal Shock pecification MIL-STD-202, Method 107, Test Condition B, except high temperature shall be +200°C.
Moisture Resistance Specification MIL-STD-202, Method 106. Step 7b (vibration) shall be omitted. Insulation resistance shall be 200 megohms min. within 5 minutes of removal from humidity.
Corona Level The connector shall not exhibit breakdown (corona) when the applied voltage is 500 volts rms and the altitude is 70,000 feet.
The specifications below are general specifications for all SBX connectors. Specific Data for VSWR, Insertion loss, R.F. Leakage etc. are available from the factory upon request. Specifications in the following table are recommended for any procurement documents or drawings. In the event of any conflict between these specifications and other documentation, these specifications shall govern. These specifications are subject to change according to the latest revision.
Requirement General Specifications
Standard Materials STEEL
corrosion resistant 1.4305 per DIN EN 10088 (ASTM-A484 or ASTM-A-582-80).
ALUMINUM
AlMg4.5Mn per DIN EN 1706, AlMgSi0.5 per DIN EN 1706, AlMgSi1 per DIN EN 1706 (6061-T6 per QQ-A-225/8).
BRASS
CuZn39Pb3 per DIN 17660 (QQ-B-626 (ASTM-B124), half hard).
COPPER BERYLLIUM
33-25 CuBe2PbH per DIN 17666 (DIN CEN/TS; DIN SPEC 9700) (QQ-C530).
TFE
Fluorocarbon per DIN 52900 (MIL-P-19468 and L-P403).
SILICONE RUBBER
per DIN ISO 3601 (A-A-59588, Class IIB) Gr. 50 - 75.
BORRIUM NITRITE Dielectric for high power applications per inhouse specification.
Finish COPPER BERYLLIUM
Center Contacts shall be gold plated to a minimum thickness of .00005 inch in accordance with MIL-DTL-45204 Type II, Grade C.
STAINLESS STEEL
shall be passivated per ASTM-A967.
ALUMINUM
Conductive Parts shall have an iridited finish per MIL-DTL-5541.
Other parts, such as Coupling Nuts and Back-Bodies shall be anodized per MIL-A-8625.
BRASS
.00003 inch (0.8 μm) min. gold plating per MIL-DTL-45204, or nicle plating per QQ-N-290, as specified.
VARIOUS Imoloy .0001 inch (2.5 μm) min. plating, consisting of 55% Copper / 20% Zinc / 25% Tin (on special request).
Design The design shall be such that the outline dimensions are met. In addition, the assembled connector shall meet the interface dimensions.
Electrical
Frequency Range DC - 8.0 GHz min.
Insulation Resistance The insulation resistance shall not be less than 5,000 megohms.
Voltage Standing Wave Ratio (VSWR) 1.015 + .003 * f(GHz)
Contact Resistance The center contact resistance drop shall not exceed 0.8 milliohms and the outer contact resistance drop shall not exceed 1.5 milliohms.
Dielectric Withstanding Voltage The magnitude of the test voltage shall be 4,000 volts rms at sea level.
RF High Potential Withstanding Voltage The RF high potential withstanding voltage is 2,500 volts rms at 5 MHz. Leakage is not applicable.
RF Leakage RF Leakage is not applicable.
Insertion Loss (.05 SQT (f(GHz))) dB
Mechanical
Connector Durability The connector is to be tested and its mating connector shall be subjected to 500 insertion and withdrawal cycles at 12 cycles per minute max. The connector shall show no evidence of mechanical failure and the connector shall meet the mating characteristic requirements.
Cable Retention Force Cable Retention Force is not applicable.
Coupling Nut Retention Force Coupling Nut Retention Force is not applicable.
Force to Engage and Disengage Force to engage and disengage is not applicable.
Longitudinal Force max. Longitudinal force is not applicable.
Mating Characteristics

Mating Characteristics are not applicable.

Recommended Mating Torque Recommended Mating Torque is not applicable.
Environmental
Corrosion (Salt Spray) Specification MIL-STD-202, Method 101, Test Condition B. The salt solution shall be 5%.
Vibration Specification MIL-STD-202, Method 204, Test Condition B.
Shock Specification MIL-STD-202, Method 213, Test Condition I.
Thermal Shock pecification MIL-STD-202, Method 107, Test Condition B, except high temperature shall be +200°C.
Moisture Resistance Specification MIL-STD-202, Method 106. Step 7b (vibration) shall be omitted. Insulation resistance shall be 200 megohms min. within 5 minutes of removal from humidity.
Corona Level The connector shall not exhibit breakdown (corona) when the applied voltage is 500 volts rms and the altitude is 70,000 feet.
The specifications below are general specifications for all SBY connectors. Specific Data for VSWR, Insertion loss, R.F. Leakage etc. are available from the factory upon request. Specifications in the following table are recommended for any procurement documents or drawings. In the event of any conflict between these specifications and other documentation, these specifications shall govern. These specifications are subject to change according to the latest revision.
Requirement General Specifications
Standard Materials STEEL
corrosion resistant 1.4305 per DIN EN 10088 (ASTM-A484 or ASTM-A-582-80).
ALUMINUM
AlMg4.5Mn per DIN EN 1706, AlMgSi0.5 per DIN EN 1706, AlMgSi1 per DIN EN 1706 (6061-T6 per QQ-A-225/8).
BRASS
CuZn39Pb3 per DIN 17660 (QQ-B-626 (ASTM-B124), half hard).
COPPER BERYLLIUM
33-25 CuBe2PbH per DIN 17666 (DIN CEN/TS; DIN SPEC 9700) (QQ-C530).
TFE
Fluorocarbon per DIN 52900 (MIL-P-19468 and L-P403).
SILICONE RUBBER
per DIN ISO 3601 (A-A-59588, Class IIB) Gr. 50 - 75.
BORRIUM NITRITE Dielectric for high power applications per inhouse specification.
Finish COPPER BERYLLIUM
Center Contacts shall be gold plated to a minimum thickness of .00005 inch in accordance with MIL-DTL-45204 Type II, Grade C.
STAINLESS STEEL
shall be passivated per ASTM-A967.
ALUMINUM
Conductive Parts shall have an iridited finish per MIL-DTL-5541.
Other parts, such as Coupling Nuts and Back-Bodies shall be anodized per MIL-A-8625.
BRASS
.00003 inch (0.8 μm) min. gold plating per MIL-DTL-45204, or nicle plating per QQ-N-290, as specified.
VARIOUS Imoloy .0001 inch (2.5 μm) min. plating, consisting of 55% Copper / 20% Zinc / 25% Tin (on special request).
Design The design shall be such that the outline dimensions are met. In addition, the assembled connector shall meet the interface dimensions.
Electrical
Frequency Range DC - 12.0 GHz min.
Insulation Resistance The insulation resistance shall not be less than 5,000 megohms.
Voltage Standing Wave Ratio (VSWR) 1.015 + .003 * f(GHz)
Contact Resistance The center contact resistance drop shall not exceed 1.0 milliohms and the outer contact resistance drop shall not exceed 1.5 milliohms.
Dielectric Withstanding Voltage The magnitude of the test voltage shall be 2,300 volts rms at sea level.
RF High Potential Withstanding Voltage The RF high potential withstanding voltage is 1,300 volts rms at 5 MHz. Leakage is not applicable.
RF Leakage RF Leakage is not applicable.
Insertion Loss (.05 SQT (f(GHz))) dB
Mechanical
Connector Durability The connector is to be tested and its mating connector shall be subjected to 500 insertion and withdrawal cycles at 12 cycles per minute max. The connector shall show no evidence of mechanical failure and the connector shall meet the mating characteristic requirements.
Cable Retention Force Cable Retention Force is not applicable.
Coupling Nut Retention Force Coupling Nut Retention Force is not applicable.
Force to Engage and Disengage Force to engage and disengage is not applicable.
Longitudinal Force max. Longitudinal force is not applicable.
Mating Characteristics

Mating Characteristics are not applicable.

Recommended Mating Torque Recommended Mating Torque is not applicable.
Environmental
Corrosion (Salt Spray) Specification MIL-STD-202, Method 101, Test Condition B. The salt solution shall be 5%.
Vibration Specification MIL-STD-202, Method 204, Test Condition B.
Shock Specification MIL-STD-202, Method 213, Test Condition I.
Thermal Shock pecification MIL-STD-202, Method 107, Test Condition B, except high temperature shall be +200°C.
Moisture Resistance Specification MIL-STD-202, Method 106. Step 7b (vibration) shall be omitted. Insulation resistance shall be 200 megohms min. within 5 minutes of removal from humidity.
Corona Level The connector shall not exhibit breakdown (corona) when the applied voltage is 2800 volts rms and the altitude is 0 feet.
The specifications below are general specifications for all SC connectors. Specific Data for VSWR, Insertion Loss, R.F. Leakage, etc. are available from the factory upon request. Specifications in the following table are recommended for any procurement documents or drawings. In the event of any conflict between these specifications and General Specifications MIL-C-39012, these specifications shall govern. These specifications are subject to change according to the latest revision.
Requirement General Specifications
Standard Materials STEEL
corrosion resistant 1.4305 per DIN EN 10088 (ASTM-A484 or ASTM-A-582-80).
ALUMINUM
AlMg4.5Mn per DIN EN 1706, AlMgSi0.5 per DIN EN 1706, AlMgSi1 per DIN EN 1706 (6061-T6 per QQ-A-225/8).
BRASS
CuZn39Pb3 per DIN 17660 (QQ-B-626 (ASTM-B124), half hard).
COPPER BERYLLIUM
33-25 CuBe2PbH per DIN 17666 (DIN CEN/TS; DIN SPEC 9700) (QQ-C530).
TFE
Fluorocarbon per DIN 52900 (MIL-P-19468 and L-P403).
SILICONE RUBBER
per DIN ISO 3601 (A-A-59588, Class IIB) Gr. 50 - 75.
BORRIUM NITRITE Dielectric for high power applications per inhouse specification.
Finish COPPER BERYLLIUM
Center Contacts shall be gold plated to a minimum thickness of .00005 inch in accordance with MIL-DTL-45204 Type II, Grade C.
STAINLESS STEEL
shall be passivated per ASTM-A967.
ALUMINUM
Conductive Parts shall have an iridited finish per MIL-DTL-5541.
Other parts, such as Coupling Nuts and Back-Bodies shall be anodized per MIL-A-8625.
BRASS
.00003 inch (0.8 μm) min. gold plating per MIL-DTL-45204, or nicle plating per QQ-N-290, as specified.
VARIOUS Imoloy .0001 inch (2.5 μm) min. plating, consisting of 55% Copper / 20% Zinc / 25% Tin (on special request).
Design The design shall be such that the outline dimensions are met. In addition, the assembled connector shall meet the interface dimensions.
Electrical
Frequency Range DC - 10.0 GHz min.
Insulation Resistance The insulation resistance shall not be less than 5,000 megohms.
Voltage Standing Wave Ratio (VSWR) 1.05 + .005 * f(GHz)
Contact Resistance The center contact resistance drop shall not exceed 1.0 milliohms and the outer contact resistance drop shall not exceed 0.15 milliohms.
Dielectric Withstanding Voltage The magnitude of the test voltage shall be 3,000 volts rms at sea level.
RF High Potential Withstanding Voltage The RF high potential withstanding voltage is 2,500 volts rms at 5 MHz. Leakage is not applicable.
RF Leakage -(90 - f(GHz)) dB
Insertion Loss (.05 SQT (f(GHz))) dB
Mechanical
Connector Durability The connector is to be tested and its mating connector shall be subjected to 500 insertion and withdrawal cycles at 12 cycles per minute max. The connector shall show no evidence of mechanical failure and the connector shall meet the mating characteristic requirements.
Cable Retention Force 75 pounds (333.6 N) min.
Coupling Nut Retention Force Not applicable for Female connectors. For male connectors, the axial force is 100 lbs (445 N) min.
The torque is 30 inch-pounds (3.4 Nm) max.
Force to Engage and Disengage The torque required to engage and disengage shall not exceed 6 inch-pounds (0.678 Nm).
Longitudinal Force max. Longitudinal force is not applicable.
Mating Characteristics See interface dimensions here ». Applicable to Females only: oversize pin .098 inch (2.49 mm) min. dia.,.125 inch (3.17 mm) min. deep; insertion force 2 lbs. (8.9 N) max. with .092 inch (2.34 mm) min. dia. pin; withdrawal force 2.00 oz (.556 N) min. with .090 inch (2.29 mm) max. dia. pin.
Recommended Mating Torque 12 - 15 inch-pounds (1.4 - 1.7 Nm)
Environmental
Corrosion (Salt Spray) Specification MIL-STD-202, Method 101, Test Condition B. The salt solution shall be 5%.
Vibration Specification MIL-STD-202, Method 204, Test Condition B.
Shock Specification MIL-STD-202, Method 213, Test Condition I.
Thermal Shock pecification MIL-STD-202, Method 107, Test Condition B, except high temperature shall be +200°C.
Moisture Resistance Specification MIL-STD-202, Method 106. Step 7b (vibration) shall be omitted. Insulation resistance shall be 200 megohms min. within 5 minutes of removal from humidity.
Corona Level The connector shall not exhibit breakdown (corona) when the applied voltage is 750 volts rms and the altitude is 70,000 feet.
The specifications below are general specifications for all SMA connectors. Specific Data for VSWR, Insertion Loss, R.F. Leakage, etc. are available from the factory upon request. Specifications in the following table are recommended for any procurement documents or drawings. In the event of any conflict between these specifications and General Specifications MIL-C-39012, these specifications shall govern. These specifications are subject to change according to the latest revision.
Requirement General Specifications
Standard Materials STEEL
corrosion resistant 1.4305 per DIN EN 10088 (ASTM-A484 or ASTM-A-582-80).
ALUMINUM
AlMg4.5Mn per DIN EN 1706, AlMgSi0.5 per DIN EN 1706, AlMgSi1 per DIN EN 1706 (6061-T6 per QQ-A-225/8).
BRASS
CuZn39Pb3 per DIN 17660 (QQ-B-626 (ASTM-B124), half hard).
COPPER BERYLLIUM
33-25 CuBe2PbH per DIN 17666 (DIN CEN/TS; DIN SPEC 9700) (QQ-C530).
TFE
Fluorocarbon per DIN 52900 (MIL-P-19468 and L-P403).
SILICONE RUBBER
per DIN ISO 3601 (A-A-59588, Class IIB) Gr. 50 - 75.
BORRIUM NITRITE Dielectric for high power applications per inhouse specification.
Finish COPPER BERYLLIUM
Center Contacts shall be gold plated to a minimum thickness of .00005 inch in accordance with MIL-DTL-45204 Type II, Grade C.
STAINLESS STEEL
shall be passivated per ASTM-A967.
ALUMINUM
Conductive Parts shall have an iridited finish per MIL-DTL-5541.
Other parts, such as Coupling Nuts and Back-Bodies shall be anodized per MIL-A-8625.
BRASS
.00003 inch (0.8 μm) min. gold plating per MIL-DTL-45204, or nicle plating per QQ-N-290, as specified.
VARIOUS Imoloy .0001 inch (2.5 μm) min. plating, consisting of 55% Copper / 20% Zinc / 25% Tin (on special request).
Design The design shall be such that the outline dimensions are met. In addition, the assembled connector shall meet the interface dimensions.
Electrical
Frequency Range DC - 18.0 GHz min.
Insulation Resistance The insulation resistance shall not be less than 5,000 megohms.
Voltage Standing Wave Ratio (VSWR) 1.02 + .005 * f(GHz)
Contact Resistance The center contact resistance drop shall not exceed 3.0 milliohms and the outer contact resistance drop shall not exceed 2.0 milliohms.
Dielectric Withstanding Voltage The magnitude of the test voltage shall be 1,000 volts rms at sea level.
RF High Potential Withstanding Voltage The RF high potential withstanding voltage is 670 volts rms at 5 MHz. Leakage is not applicable.
RF Leakage -(90 - f(GHz)) dB
Insertion Loss (.05 SQT (f(GHz))) dB
Mechanical
Connector Durability The connector is to be tested and its mating connector shall be subjected to 500 insertion and withdrawal cycles at 12 cycles per minute max. The connector shall show no evidence of mechanical failure and the connector shall meet the mating characteristic requirements.
Cable Retention Force 60 pounds (267 N) min.
Coupling Nut Retention Force Not applicable for Female connectors. For male connectors, the axial force is 100 lbs (445 N) min.
The torque is 15 inch-pounds (1.7 Nm) max.
Force to Engage and Disengage The torque required to engage and disengage shall not exceed 2 inch-pounds (0.226 Nm).
Longitudinal Force max. Longitudinal force is not applicable.
Mating Characteristics See interface dimensions here ». Applicable to Females only: oversize pin .0376 inch (.955 mm) max. dia.,.045 inch (1.14 mm) deep; insertion force 3 lbs. (13.34 N) max. with .037 inch (.94 mm) min. dia. pin; withdrawal force 1.00 oz (.278 N) min. with .0355 inch (.90 mm) max. dia. pin.
Recommended Mating Torque 7 - 10 inch-pounds (0.8 - 1.13 Nm)
Environmental
Corrosion (Salt Spray) Specification MIL-STD-202, Method 101, Test Condition B. The salt solution shall be 5%.
Vibration Specification MIL-STD-202, Method 204, Test Condition B.
Shock Specification MIL-STD-202, Method 213, Test Condition I.
Thermal Shock pecification MIL-STD-202, Method 107, Test Condition B, except high temperature shall be +200°C.
Moisture Resistance Specification MIL-STD-202, Method 106. Step 7b (vibration) shall be omitted. Insulation resistance shall be 200 megohms min. within 5 minutes of removal from humidity.
Corona Level The connector shall not exhibit breakdown (corona) when the applied voltage is 375 volts rms and the altitude is 70,000 feet.
The specifications below are general specifications for all SMP connectors. Specific Data for VSWR, Insertion loss, R.F. Leakage etc. are available from the factory upon request. Specifications in the following table are recommended for any procurement documents or drawings. In the event of any conflict between these specifications and other documentation, these specifications shall govern. These specifications are subject to change according to the latest revision.
Requirement General Specifications
Standard Materials STEEL
corrosion resistant 1.4305 per DIN EN 10088 (ASTM-A484 or ASTM-A-582-80).
ALUMINUM
AlMg4.5Mn per DIN EN 1706, AlMgSi0.5 per DIN EN 1706, AlMgSi1 per DIN EN 1706 (6061-T6 per QQ-A-225/8).
BRASS
CuZn39Pb3 per DIN 17660 (QQ-B-626 (ASTM-B124), half hard).
COPPER BERYLLIUM
33-25 CuBe2PbH per DIN 17666 (DIN CEN/TS; DIN SPEC 9700) (QQ-C530).
TFE
Fluorocarbon per DIN 52900 (MIL-P-19468 and L-P403).
SILICONE RUBBER
per DIN ISO 3601 (A-A-59588, Class IIB) Gr. 50 - 75.
BORRIUM NITRITE Dielectric for high power applications per inhouse specification.
Finish COPPER BERYLLIUM
Center Contacts shall be gold plated to a minimum thickness of .00005 inch in accordance with MIL-DTL-45204 Type II, Grade C.
STAINLESS STEEL
shall be passivated per ASTM-A967.
ALUMINUM
Conductive Parts shall have an iridited finish per MIL-DTL-5541.
Other parts, such as Coupling Nuts and Back-Bodies shall be anodized per MIL-A-8625.
BRASS
.00003 inch (0.8 μm) min. gold plating per MIL-DTL-45204, or nicle plating per QQ-N-290, as specified.
VARIOUS Imoloy .0001 inch (2.5 μm) min. plating, consisting of 55% Copper / 20% Zinc / 25% Tin (on special request).
Design The design shall be such that the outline dimensions are met. In addition, the assembled connector shall meet the interface dimensions.
Electrical
Frequency Range DC - 40.0 GHz min.
Insulation Resistance The insulation resistance shall not be less than 5,000 megohms.
Voltage Standing Wave Ratio (VSWR) 1.7:1 max. to 40.0 GHz
Contact Resistance The center contact resistance drop is 6.0 milliohms max.
Dielectric Withstanding Voltage The magnitude of the test voltage shall be 500 volts rms at sea level.
RF High Potential Withstanding Voltage The RF high potential withstanding voltage is 325 volts rms at 5 MHz. Leakage is not applicable.
RF Leakage RF Leakage is not applicable
Insertion Loss (.10 SQT (f(GHz))) dB
Mechanical
Connector Durability The connector is to be tested and its mating connector shall be subjected to 100 insertions min.
Withdrawal cycles /minute are not applicable. The connector shall show no evidence of mechanical failure and the connector shall meet the mating characteristic requirements.
Cable Retention Force Not applicable.
Coupling Nut Retention Force Not applicable.
Force to Engage and Disengage The force to engage shall be max.15 lbs.(66.7 N) (full detent); 10 lbs.(44.5 N) (lim. detent); 2 lbs.(8.9 N) (smooth bore)
The disengage force shall be min. 5 lbs.(22.2 N) (full detent); 2 lbs.(8.9 N) (lim. detent); 0.5 lbs.(2.22 N) (smooth bore)
Longitudinal Force max. Longitudinal force is not applicable.
Mating Characteristics Not applicable.
Recommended Mating Torque Recommended Mating Torque is not applicable.
Environmental
Corrosion (Salt Spray) Specification MIL-STD-202, Method 101, Test Condition B. The salt solution shall be 5%.
Vibration Specification MIL-STD-202, Method 204, Test Condition B.
Shock Specification MIL-STD-202, Method 213, Test Condition I.
Thermal Shock pecification MIL-STD-202, Method 107, Test Condition B, except high temperature shall be +200°C.
Moisture Resistance Specification MIL-STD-202, Method 106. Step 7b (vibration) shall be omitted. Insulation resistance shall be 200 megohms min. within 5 minutes of removal from humidity.
Corona Level The connector shall not exhibit breakdown (corona) when the applied voltage is 2800 volts rms and the altitude is 0 feet.
The specifications below are general specifications for all SPM connectors. Specific Data for VSWR, Insertion loss, R.F. Leakage etc. are available from the factory upon request. Specifications in the following table are recommended for any procurement documents or drawings. In the event of any conflict between these specifications and other documentation, these specifications shall govern. These specifications are subject to change according to the latest revision.
Requirement General Specifications
Standard Materials STEEL
corrosion resistant 1.4305 per DIN EN 10088 (ASTM-A484 or ASTM-A-582-80).
ALUMINUM
AlMg4.5Mn per DIN EN 1706, AlMgSi0.5 per DIN EN 1706, AlMgSi1 per DIN EN 1706 (6061-T6 per QQ-A-225/8).
BRASS
CuZn39Pb3 per DIN 17660 (QQ-B-626 (ASTM-B124), half hard).
COPPER BERYLLIUM
33-25 CuBe2PbH per DIN 17666 (DIN CEN/TS; DIN SPEC 9700) (QQ-C530).
TFE
Fluorocarbon per DIN 52900 (MIL-P-19468 and L-P403).
SILICONE RUBBER
per DIN ISO 3601 (A-A-59588, Class IIB) Gr. 50 - 75.
BORRIUM NITRITE Dielectric for high power applications per inhouse specification.
Finish COPPER BERYLLIUM
Center Contacts shall be gold plated to a minimum thickness of .00005 inch in accordance with MIL-DTL-45204 Type II, Grade C.
STAINLESS STEEL
shall be passivated per ASTM-A967.
ALUMINUM
Conductive Parts shall have an iridited finish per MIL-DTL-5541.
Other parts, such as Coupling Nuts and Back-Bodies shall be anodized per MIL-A-8625.
BRASS
.00003 inch (0.8 μm) min. gold plating per MIL-DTL-45204, or nicle plating per QQ-N-290, as specified.
VARIOUS Imoloy .0001 inch (2.5 μm) min. plating, consisting of 55% Copper / 20% Zinc / 25% Tin (on special request).
Design The design shall be such that the outline dimensions are met. In addition, the assembled connector shall meet the interface dimensions.
Electrical
Frequency Range DC - 18.0 GHz min.
Insulation Resistance The insulation resistance shall not be less than 5,000 megohms.
Voltage Standing Wave Ratio (VSWR) 1.02 + .005 * f(GHz)
Contact Resistance The center contact resistance drop shall not exceed 3.0 milliohms and the outer contact resistance drop shall not exceed 2.0 milliohms.
Dielectric Withstanding Voltage The magnitude of the test voltage shall be 1,000 volts rms at sea level.
RF High Potential Withstanding Voltage The RF high potential withstanding voltage is 670 volts rms at 5 MHz. Leakage is not applicable.
RF Leakage -(90 - f(GHz)) dB
Insertion Loss (.05 SQT (f(GHz))) dB
Mechanical
Connector Durability The connector is to be tested and its mating connector shall be subjected to 500 insertions and withdrawal cycles at 12 cycles per minute max. The connector shall show no evidence of mechanical failure and the connector shall meet the mating characteristic requirements.
Cable Retention Force 60 pounds (267 N) min.
Coupling Nut Retention Force Not applicable for Female connectors. For male connectors, the axial force is 100 lbs (445 N) max.
The torque is 15 inch-pounds (1.7 Nm) max.
Force to Engage and Disengage The torque required to engage and disengage shall not exceed 2 inch-pounds (0.226 Nm).
Longitudinal Force max. Longitudinal force is not applicable.
Mating Characteristics See interface dimensions here ». Applicable to Females only: oversize pin .0376 inch (.955 mm) max. dia.,.045 inch (1.14 mm) deep; insertion force 3 lbs. (13.34 N) max. with .037 inch (.94 mm) min. dia. pin; withdrawal force 1.00 oz (.278 N) min. with .0355 inch (.90 mm) max. dia. pin.
Recommended Mating Torque 7 - 10 inch-pounds (0.8 - 1.13 Nm)
Environmental
Corrosion (Salt Spray) Specification MIL-STD-202, Method 101, Test Condition B. The salt solution shall be 5%.
Vibration Specification MIL-STD-202, Method 204, Test Condition B.
Shock Specification MIL-STD-202, Method 213, Test Condition I.
Thermal Shock pecification MIL-STD-202, Method 107, Test Condition B, except high temperature shall be +200°C.
Moisture Resistance Specification MIL-STD-202, Method 106. Step 7b (vibration) shall be omitted. Insulation resistance shall be 200 megohms min. within 5 minutes of removal from humidity.
Corona Level The connector shall not exhibit breakdown (corona) when the applied voltage is 350 volts rms and the altitude is 70,000 feet.
The specifications below are general specifications for all TNC connectors. Specific Data for VSWR, Insertion Loss, R.F. Leakage, etc. are available from the factory upon request. Specifications in the following table are recommended for any procurement documents or drawings. In the event of any conflict between these specifications and General Specifications MIL-C-39012, these specifications shall govern. These specifications are subject to change according to the latest revision.
Requirement General Specifications
Standard Materials STEEL
corrosion resistant 1.4305 per DIN EN 10088 (ASTM-A484 or ASTM-A-582-80).
ALUMINUM
AlMg4.5Mn per DIN EN 1706, AlMgSi0.5 per DIN EN 1706, AlMgSi1 per DIN EN 1706 (6061-T6 per QQ-A-225/8).
BRASS
CuZn39Pb3 per DIN 17660 (QQ-B-626 (ASTM-B124), half hard).
COPPER BERYLLIUM
33-25 CuBe2PbH per DIN 17666 (DIN CEN/TS; DIN SPEC 9700) (QQ-C530).
TFE
Fluorocarbon per DIN 52900 (MIL-P-19468 and L-P403).
SILICONE RUBBER
per DIN ISO 3601 (A-A-59588, Class IIB) Gr. 50 - 75.
BORRIUM NITRITE Dielectric for high power applications per inhouse specification.
Finish COPPER BERYLLIUM
Center Contacts shall be gold plated to a minimum thickness of .00005 inch in accordance with MIL-DTL-45204 Type II, Grade C.
STAINLESS STEEL
shall be passivated per ASTM-A967.
ALUMINUM
Conductive Parts shall have an iridited finish per MIL-DTL-5541.
Other parts, such as Coupling Nuts and Back-Bodies shall be anodized per MIL-A-8625.
BRASS
.00003 inch (0.8 μm) min. gold plating per MIL-DTL-45204, or nicle plating per QQ-N-290, as specified.
VARIOUS Imoloy .0001 inch (2.5 μm) min. plating, consisting of 55% Copper / 20% Zinc / 25% Tin (on special request).
Design The design shall be such that the outline dimensions are met. In addition, the assembled connector shall meet the interface dimensions.
Electrical
Frequency Range DC - 11.0 GHz min.
Insulation Resistance The insulation resistance shall not be less than 5,000 megohms.
Voltage Standing Wave Ratio (VSWR) 1.03 + .005 * f(GHz)
Contact Resistance The center contact resistance drop shall not exceed 1.5 milliohms and the outer contact resistance drop shall not exceed 2.0 milliohms.
Dielectric Withstanding Voltage The magnitude of the test voltage shall be 1,500 volts rms at sea level.
RF High Potential Withstanding Voltage The high potential test voltage is 1,000 volts rms.
RF Leakage -60 dB min. @ 2-3 GHz
Insertion Loss (.06 SQT (f(GHz))) dB
Mechanical
Connector Durability The connector is to be tested and its mating connector shall be subjected to 500 insertions and withdrawal cycles at 12 cycles per minute max. The connector shall show no evidence of mechanical failure and the connector shall meet the mating characteristic requirements.
Cable Retention Force 40 pounds (177.9 N) min.
Coupling Nut Retention Force Not applicable for Female connectors. For male connectors, the axial force is 100 lbs (445 N) max.
The torque is 30 inch-pounds (3.4 Nm) max.
Force to Engage and Disengage The torque required to engage and disengage shall not exceed 2-4 inch-pounds (0.452-0.678 Nm).
Longitudinal Force max. Longitudinal force is not applicable.
Mating Characteristics See interface dimensions here ». Applicable to Females only: oversize pin .057 inch (1.44 mm) max. dia.,.125 inch (3.17 mm) deep; insertion force 2 lbs. (8.9 N) max. with. 054 inch (1.37 mm) min. dia. pin; withdrawal force 2.00 oz (.556 N) min. with .052 inch (1.32 mm) max. dia. pin.
Recommended Mating Torque 4 - 6 inch-pounds (0.51- 0.67 Nm)
Environmental
Corrosion (Salt Spray) Specification MIL-STD-202, Method 101, Test Condition B. The salt solution shall be 5%.
Vibration Specification MIL-STD-202, Method 204, Test Condition B.
Shock Specification MIL-STD-202, Method 213, Test Condition I.
Thermal Shock pecification MIL-STD-202, Method 107, Test Condition B, except high temperature shall be +200°C.
Moisture Resistance Specification MIL-STD-202, Method 106. Step 7b (vibration) shall be omitted. Insulation resistance shall be 200 megohms min. within 5 minutes of removal from humidity.
Corona Level The connector shall not exhibit breakdown (corona) when the applied voltage is 375 volts rms and the altitude is 0 feet.
The specifications below are general specifications for all TNC connectors. Specific Data for VSWR, Insertion Loss, R.F. Leakage, etc. are available from the factory upon request. Specifications in the following table are recommended for any procurement documents or drawings. In the event of any conflict between these specifications and General Specifications MIL-C-87104/2, these specifications shall govern. The paragraph numbers refer to the associated requirement paragraphs of MIL-C-87104/2. These specifications are subject to change according to the latest revision.
Requirement General Specifications
Standard Materials STEEL
corrosion resistant 1.4305 per DIN EN 10088 (ASTM-A484 or ASTM-A-582-80).
ALUMINUM
AlMg4.5Mn per DIN EN 1706, AlMgSi0.5 per DIN EN 1706, AlMgSi1 per DIN EN 1706 (6061-T6 per QQ-A-225/8).
BRASS
CuZn39Pb3 per DIN 17660 (QQ-B-626 (ASTM-B124), half hard).
COPPER BERYLLIUM
33-25 CuBe2PbH per DIN 17666 (DIN CEN/TS; DIN SPEC 9700) (QQ-C530).
TFE
Fluorocarbon per DIN 52900 (MIL-P-19468 and L-P403).
SILICONE RUBBER
per DIN ISO 3601 (A-A-59588, Class IIB) Gr. 50 - 75.
BORRIUM NITRITE Dielectric for high power applications per inhouse specification.
Finish COPPER BERYLLIUM
Center Contacts shall be gold plated to a minimum thickness of .00005 inch in accordance with MIL-DTL-45204 Type II, Grade C.
STAINLESS STEEL
shall be passivated per ASTM-A967.
ALUMINUM
Conductive Parts shall have an iridited finish per MIL-DTL-5541.
Other parts, such as Coupling Nuts and Back-Bodies shall be anodized per MIL-A-8625.
BRASS
.00003 inch (0.8 μm) min. gold plating per MIL-DTL-45204, or nicle plating per QQ-N-290, as specified.
VARIOUS Imoloy .0001 inch (2.5 μm) min. plating, consisting of 55% Copper / 20% Zinc / 25% Tin (on special request).
Design The design shall be such that the outline dimensions are met. In addition, the assembled connector shall meet the interface dimensions.
Electrical
Frequency Range DC - 18.0 GHz min.
Insulation Resistance The insulation resistance shall not be less than 5,000 megohms.
Voltage Standing Wave Ratio (VSWR) 1.03 + .005 * f(GHz)
Contact Resistance The center contact resistance drop shall not exceed 1.5 milliohms and the outer contact resistance drop shall not exceed 2.0 milliohms.
Dielectric Withstanding Voltage The magnitude of the test voltage shall be 1,500 volts rms at sea level.
RF High Potential Withstanding Voltage The high potential test voltage is 2,000 volts rms. Leakage is not applicable.
RF Leakage -60 dB min. @ 2-3 GHz
Insertion Loss 0.22 dB @ 18.0 GHz
Mechanical
Connector Durability The connector is to be tested and its mating connector shall be subjected to 500 insertions and withdrawal cycles at 12 cycles per minute max. The connector shall show no evidence of mechanical failure and the connector shall meet the mating characteristic requirements.
Cable Retention Force 40 pounds (177.9 N) min.
Coupling Nut Retention Force Not applicable for Female connectors. For male connectors, the axial force is 100 lbs (445 N) max.
The torque is 30 inch-pounds (3.4 Nm) max.
Force to Engage and Disengage The torque required to engage and disengage shall not exceed 2-4 inch-pounds (0.452-0.678 Nm).
Longitudinal Force max. Longitudinal force is not applicable.
Mating Characteristics See interface dimensions here ». Applicable to Females only: oversize pin .057 inch (1.44 mm) max. dia.,.125 inch (3.17 mm) deep; insertion force 2 lbs. (8.9 N) max. with. 054 inch (1.37 mm) min. dia. pin; withdrawal force 2.00 oz (.556 N) min. with .052 inch (1.32 mm) max. dia. pin.
Recommended Mating Torque 2.9 Nm
Environmental
Corrosion (Salt Spray) Specification MIL-STD-202, Method 101, Test Condition B. The salt solution shall be 5%.
Vibration Specification MIL-STD-202, Method 204, Test Condition B.
Shock Specification MIL-STD-202, Method 213, Test Condition I.
Thermal Shock pecification MIL-STD-202, Method 107, Test Condition B, except high temperature shall be +200°C.
Moisture Resistance Specification MIL-STD-202, Method 106. Step 7b (vibration) shall be omitted. Insulation resistance shall be 200 megohms min. within 5 minutes of removal from humidity.
Corona Level The connector shall not exhibit breakdown (corona) when the applied voltage is 375 volts rms and the altitude is 0 feet.
The specifications below are general specifications for all TNX connectors. Specific Data for VSWR, Insertion loss, R.F. Leakage etc. are available from the factory upon request. Specifications in the following table are recommended for any procurement documents or drawings. In the event of any conflict between these specifications and other documentation, these specifications shall govern. These specifications are subject to change according to the latest revision.
Requirement General Specifications
Standard Materials STEEL
corrosion resistant 1.4305 per DIN EN 10088 (ASTM-A484 or ASTM-A-582-80).
ALUMINUM
AlMg4.5Mn per DIN EN 1706, AlMgSi0.5 per DIN EN 1706, AlMgSi1 per DIN EN 1706 (6061-T6 per QQ-A-225/8).
BRASS
CuZn39Pb3 per DIN 17660 (QQ-B-626 (ASTM-B124), half hard).
COPPER BERYLLIUM
33-25 CuBe2PbH per DIN 17666 (DIN CEN/TS; DIN SPEC 9700) (QQ-C530).
TFE
Fluorocarbon per DIN 52900 (MIL-P-19468 and L-P403).
SILICONE RUBBER
per DIN ISO 3601 (A-A-59588, Class IIB) Gr. 50 - 75.
BORRIUM NITRITE Dielectric for high power applications per inhouse specification.
Finish COPPER BERYLLIUM
Center Contacts shall be gold plated to a minimum thickness of .00005 inch in accordance with MIL-DTL-45204 Type II, Grade C.
STAINLESS STEEL
shall be passivated per ASTM-A967.
ALUMINUM
Conductive Parts shall have an iridited finish per MIL-DTL-5541.
Other parts, such as Coupling Nuts and Back-Bodies shall be anodized per MIL-A-8625.
BRASS
.00003 inch (0.8 μm) min. gold plating per MIL-DTL-45204, or nicle plating per QQ-N-290, as specified.
VARIOUS Imoloy .0001 inch (2.5 μm) min. plating, consisting of 55% Copper / 20% Zinc / 25% Tin (on special request).
Design The design shall be such that the outline dimensions are met. In addition, the assembled connector shall meet the interface dimensions.
Electrical
Frequency Range DC - 18.0 GHz min.
Insulation Resistance The insulation resistance shall not be less than 5,000 megohms.
Voltage Standing Wave Ratio (VSWR) 1.04 + .007 * f(GHz)
Contact Resistance The center contact resistance drop shall not exceed 2.0 milliohms and the outer contact resistance drop shall not exceed 2.0 milliohms.
Dielectric Withstanding Voltage The magnitude of the test voltage shall be 1,500 volts rms at sea level.
RF High Potential Withstanding Voltage The RF high potential withstanding voltage is 1,000 volts rms at 5 MHz. Leakage is not applicable.
RF Leakage -(90 - f(GHz)) dB
Insertion Loss (.05 SQT (f(GHz))) dB
Mechanical
Connector Durability The connector is to be tested and its mating connector shall be subjected to 500 insertions and withdrawal cycles at 12 cycles per minute max. The connector shall show no evidence of mechanical failure and the connector shall meet the mating characteristic requirements.
Cable Retention Force 60 pounds (267 N) min.
Coupling Nut Retention Force Not applicable for Female connectors. For male connectors , the torque is 50 inch-pounds (5.65 Nm) max.
The axial force is not applicable.
Force to Engage and Disengage The torque required to engage and disengage shall not exceed 2 inch-pounds (0.226 Nm).
Longitudinal Force max. Longitudinal force is not applicable.
Mating Characteristics Mating Characteristics are not applicable.
Recommended Mating Torque 23 - 30 inch-pounds (2.6 - 3.4 Nm)
Environmental
Corrosion (Salt Spray) Specification MIL-STD-202, Method 101, Test Condition B. The salt solution shall be 5%.
Vibration Specification MIL-STD-202, Method 204, Test Condition B.
Shock Specification MIL-STD-202, Method 213, Test Condition I.
Thermal Shock pecification MIL-STD-202, Method 107, Test Condition B, except high temperature shall be +200°C.
Moisture Resistance Specification MIL-STD-202, Method 106. Step 7b (vibration) shall be omitted. Insulation resistance shall be 200 megohms min. within 5 minutes of removal from humidity.
Corona Level Corona level is not applicable.
Contact Details
Spectrum Elektrotechnik GmbH
Olschewskibogen 1
80935 Munich
Germany

Mailing address:
P.O. Box 450 533
80905 Munich

+49 (0)89 / 354 804-0
+49 (0)89 / 354 804-90

sales@spectrum-et.com
www.spectrum-et.com