145-0694-002 Emerson Network Power, 145-0694-002 Datasheet - Page 2

145-0694-002

Manufacturer Part Number

145-0694-002

Description

CONN SMK PLUG SEMI-RIGID STR SLD

Manufacturer

Emerson Network Power

Series

SMKr

Datasheet

1.145-0694-002.pdf (3 pages)

Specifications of 145-0694-002

Connector Style

SMK

Connector Type

Plug, Male Pins

Contact Termination

Clamp and Solder

Impedance

50 Ohm

Mounting Type

Free Hanging (In-Line)

Fastening Type

Threaded

Cable Group

RG-402 (.141" Semi Rigid)

Frequency - Max

40GHz

Color

Gold, Silver

Frequency-max

40GHz

Body Style

Straight

Cable Type

0.141 Semi Rigid

Features

With contact, slide on nut, passivated

Frequency Range

0 GHz to 40 GHz

Housing Material

Stainless Steel

Length

2.92 mm

Operating Temperature Range

- 65 C to + 165 C

Rf Series

SMK

Product

Various Connectors

Contact Plating

Gold

Shell Plating

Gold

Termination Style

Solder Lug

Maximum Frequency

40 GHz

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Other names

J690

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Impedance: 50 ohms

Frequency Range: 0-40 GHz

VSWR: (f = GHz)

Working Voltage: (Vrms maximum)

Connectors for Cable Type

Dielectric Withstanding Voltage: (VRMS minimum at sea level)

Corona Level: (Volts minimum at 70,000 feet)

Insertion Loss: (dB maximum)

Insulation Resistance: 5000 megohms minimum

Contact Resistance: (milliohms maximum) Initial After Environmental

RF Leakage: (dB minimum, tested at 2.5 GHz) ............................. -90dB

RF High Potential Withstanding Voltage: (Vrms minimum, tested at 4

and 7 MHz)

Temperature Range: - 65 C to + 165 C

Thermal Shock: MIL-STD-202, Method 107, Condition B

Corrosion: MIL-STD-202, Method 101, Condition B

Shock: MIL-STD-202, Method 213, Condition I

Vibration: MIL-STD-202, Method 204, Condition D

Moisture Resistance: MIL-STD-202, Method 106

SMK - 50 Ohm Connectors (2.92mm)

INCHES (MILLIMETERS)

Semi-rigid straight cabled connectors and adapters .............. 1.20 Max

Field replaceable (see typical return loss graph) ............................ N/A

.086 semi-rigid and field replaceable......................... 335

.141 semi-rigid and adapters ..................................... 500

.086 semi-rigid and field replaceable............................................. 1000

.141 semi-rigid and adapters ......................................................... 1500

.086 semi-rigid and field replaceable............................................... 250

.141 semi-rigid and adapters ........................................................... 375

Adapters ................................................ 0.06

Straight semi-rigid cable connectors ....... 0.03 f (GHz), tested at 10 GHz

Center contact straight cabled connectors ... 3.0*

Center contact adapters ................................ 4.0

Field replaceable connectors ........................ 6.0

Outer contact (all connectors) ....................... 2.0

Body to cable (gold plated connectors) ......... 0.5

Body to cable (passivated connectors) ......... 5.0

.086 semi-rigid and field replaceable.............................................. 670

.141 semi-rigid and adapters ........................................................ 1000

(Meets or exceed the applicable paragraph of MIL-C-39012)

FIELD REPLACEABLE TEST ASSEMBLY

•

Johnson Components

CUSTOMER DRAWINGS AVAILABLE UPON REQUEST

ENVIRONMENTAL RATINGS

ELECTRICAL RATINGS

™

• P.O. Box 1732 • Waseca, MN 56093-0832 • 1-800-247-8256 • Fax: 507-833-6287 • www.johnsoncomponents.com

f (GHz), tested at 6 GHz

Sea Level 70K Feet

N/A

4.0

6.0

8.0

125

The field replaceable connectors manufactured by Johnson Components

are easy to install and replace. The hermetic seal is mounted into the circuit

module wall and the connector can be removed and replaced without de-

stroying the hermeticity of the circuit housing.

The field replaceable connector creates a transition from microstrip circuitry

to a coaxial transmission line. The SMK (2.92mm) seal pin diameter is .012

(.030) to minimize the capacitive effects on the circuit trace. For optimum

electrical performance, the transition from the hermetic seal to the microstrip

trace must be properly compensated. Compensation involves adjusting

the microstrip trace width to minimize any impedance discontinuities found

in the transition area.

The plot shown below is representative of the typical return loss of a Johnson

Components

below, a test fixture is created using the Johnson Components

metic seal. The fixture consists of a suitably thick spacer plate with the

hermetic seal mounted flush to both surfaces. Two connectors are mounted

back to back around the fixture and the VSWR of this test assembly is

measured. The calculated return loss trace shown is equivalent to the square

root of the measured VSWR of the test assembly. Since the connectors

tested are of identical design, it can be stated with fair accuracy that the

calculated data shown represents the response of a single field replaceable

connector and its transition to the hermetic seal.

Although Johnson Components

for field replaceable connectors, typical connector return loss can be ex-

pected to be less than -20 dB through 40 GHz. A VSWR specification is not

stated because an industry standard method for testing field replaceable

connectors does not exist. The actual performance of the connector is

dependent upon the following:

1. For optimum electrical performance, Johnson Components

2. It is recommended that the hermetic seal be mounted flush with the cir-

3. The transition between the hermetic seal pin and the microstrip trace will

the use of our standard 142-1000-033 hermetic seal with a pin diameter

of .0120 (0.305) +/- .0005 (0.013).

cuit housing. Tolerance variations between the hermetic seal and ma-

chined housing do not always guarantee an optimum transition to the

connector. Some manufacturers recommend an additional counterbore

in the circuit housing to accommodate a solder washer during installation

of the seal. Johnson Components

installation because if the counterbore is not completely filled with solder,

electrical discontinuities may be created.

effect electrical performance, as stated above. Several different meth-

ods of hermetic seal mounting and seal pin to microstrip trace attach-

ment are used in the industry.

™

FIELD REPLACEABLE APPLICATION NOTES

field replaceable SMK connector. To produce the data shown

™

does not publish a VSWR specification

™

does not recommend this type of

™

recommends

™

SMK her-

™

145-0694-002 Emerson Network Power, 145-0694-002 Datasheet - Page 2

145-0694-002

Specifications of 145-0694-002

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