Product > Mercury Slip Rings-- > Rotating electrical connector
Rotating electrical connector

 

 

    Typical Application

  • Index table for signal and

       power connection

  • Spinning LED sign board
  • Wind Turbines
  • Electro plating line
  • Power connection
  • Resistors cutting machine
  • Speed dome camera
  • Package machine
  • Heating roller
  • Laminating
  • Wind machine
  • Rotary stage
  • Cable wheel
  • Circa knitting machine
  • Coloring device
  • Robots
  • Rotary lamp box
  • Medical Equipments

 

ROTATING ELECTRICAL CONNECTOR

 

Construction & Function
The JINPAT rotating electrical connectors are using the special insulation, sealings , and conductive technologies.
The out case material is the aluminum alloy or stainless steel.
They are user for any kind of rotating objects of signals like micro voltage , current , EMF, thermo couple, strain gauge, audio ,video, high frequency etc and electric power connections.
All types can fill CE RoHS liquid metal, please contact us ,for details.

 

Advantage

■ NON – Mercury Slip Ring CE RoHS Meets Liquid Metal

■ Very low electric noise

■ Very low contact resistance(Less than 1mΩ)

■ No maintenance and better reliability then traditional
Slip rings

■ Suitable for signal and power transfer of rotating devices or instruments

 

Model

Conductor
Poles

Current
Amp

Voltage
AC/DC V

Max.Freq. MHZ

Max.
RPM

Operating Temp.
Max/Min ℃

Rotating Torque
gm-cm

Insulation Resistance

AIM

1

10

 

200

3600

60/-30

35

 

A1MT

1

10

 

200

3600

60/-30

35

 

A1M2

1

20

 

200

2000

60/-30

50

 

A1M5

1

50

 

200

1800

60/-30

70

 

A1HH

1

250

 

200

1200

60/-30

250

 

A1H25S

1

250

 

200

1200

60/-30

250

 

A1H25PS

1

250

 

200

1200

60/-30

250

 

A1H35S

1

350

 

200

800

60/-30

300

 

A1H50PS

1

500

 

200

300

60/-30

700

 

A1H65S

1

650

 

200

200

60/-30

1000

 

A1H65PS

1

650

 

200

200

60/-30

1000

 

A1H90PS

1

900

 

200

200

60/-30

1100

 

A1H150PS

1

1500

 

200

100

60/-30

2000

 

A1H300PS

1

3000

 

200

60

60/-30

3000

 

A1H500FS

1

5000

 

200

50

60/-30

4000

 

A1H750FS

1

7500

 

200

50

60/-30

6000

 

A2S

2

4

250

200

2000

60/-30

75

>25MΩ

A3S

3

4

250

200

1800

60/-30

100

>25MΩ

A3S-W

3

4

250

200

1800

60/-30

100

>25MΩ

A4S-W

4

4

250

200

1200

60/-30

150

>25MΩ

A2H

2

30

250

200

1800

60/-30

200

>25MΩ

A3M

3

30/4

250

200

1800

60/-30

200

>25MΩ

A3M-W

3

4

250

200

1800

60/-30

200

>25MΩ

A3H

3

30

250

200

1200

60/-30

400

>25MΩ

A4H

4

30/4

250

200

1200

60/-30

400

>25MΩ

A6H

6

30/4

250

100

300

60/-30

700

>25MΩ

A8H

8

30/4

250

100

200

60/-30

1000

>25MΩ

A1030

10

30/4

250

100

100

60/-30

1500

>25MΩ

A1230

12

30/4

250

100

60

60/-30

2000

>25MΩ

A1430

14

30/4

250

100

60

60/-30

2000

>25MΩ

A2H6

2

60

250

200

600

60/-30

400

>25MΩ

21005W

7

100/4

250

100

100

60/-30

1500

>25MΩ

A2HV

2

30

500

100

400

60/-30

400

>50MΩ

A3HV

3

30

500

100

300

60/-30

700

>50MΩ

A4HV

4

30

500

100

200

60/-30

1000

>50MΩ

A5HV

5

30

500

100

100

60/-30

1500

>50MΩ

A6HV

6

30

500

100

60

60/-30

2000

>50MΩ

A7HV

7

30

500

100

60

60/-30

2000

>50MΩ

 

Model

Though-bore
¢

Conductor
Poles

Current
Amp

Voltage
AC/DC V

Max.Freq. MHZ

Max.
RPM

Operating Temp.
Max/Min ℃

Rotating Torque
gm-cm

Insulation Resistance

H23016

16.2

2

30

250

100

100

60/-30

1000

>25MΩ

H43016

16.2

4

30

250

100

60

60/-30

1500

>25MΩ

H63016

16.2

6

30

250

100

40

60/-30

2000

>25MΩ

H83016

16.2

6

30

250

100

40

60/-30

2000

>25MΩ

H23010

10.2

2

30

250

100

150

60/-30

2000

>25MΩ

H43010

10.2

4

30

250

100

100

60/-30

2000

>25MΩ

H63010

10.2

6

30

250

100

60

60/-30

2000

>25MΩ

H83010

10.2

8

30

250

100

40

60/-30

2000

>25MΩ

H103010

10.2

10

30

250

100

40

60/-30

2000

>25MΩ

 

Notice

  • Not execeed the Max. temperature 60℃(140ºF),room temperature + self heating.
  • Vertical mounting and storage should keep the U P in the up direction.
  • Mounting into a shaft should keep no eccentricity.
  • Do not solder on the connector and terminal.
  • Connect the connector on the terminal only a few times, losing connection will cause heating when apply electric power.
  • Vibration will cause service life shorter.
  • The rotary connector can be mounted by the body or plastic collar but it can not carry mechanical loads. Another end should be mounted by the body or plastic collar but it can not carry mechanical loads. Another end should be connected floating hold by electric wire. 
  • The uppers notice should be kept, otherwise it will cause the rotary connector failure or shorten service life.