RK1-L-12V - PANASONIC - Datasheet.Live

ORDERING INFORMATION

TYPES

1. Standard type

Standard packing: 50 pcs. in an inner package; 500 pcs. in an outer package

1.5 GHz

MICROWAVE RELAYS RK RELAYS

Contact

arrangement Nominal coil voltage Single side stable type 1 coil latching type 2 coil latching type

Part No. Part No. Part No.

1 Form C

3 V DC RK1-3V RK1-L-3V RK1-L2-3V

4.5V DC RK1-4.5V RK1-L-4.5V RK1-L2-4.5V

5 V DC RK1-5V RK1-L-5V RK1-L2-5V

6 V DC RK1-6V RK1-L-6V RK1-L2-6V

9 V DC RK1-9V RK1-L-9V RK1-L2-9V

12 V DC RK1-12V RK1-L-12V RK1-L2-12V

24 V DC RK1-24V RK1-L-24V RK1-L2-24V

FEATURES

1. Excellent high frequency

characteristics

2. High sensitivity in small size

Size: 20.2 × 11.2 × 9.7 mm

.795 × .441 × .382 inch

Nominal power consumption:

200 mW (single side stable type , 1 coil

latching)

3. Sealed construction for automatic

cleaning

4. Reversed contact types and

latching types (1 coil latching/2 coil

latching) are also available

TYPICAL APPLICATIONS

•Audio visual equipment

Broadcast satellite tuners VCRs,

CATVs, TVs

• Communication equipment

Automobile telephones, maritime

telephones, emergency and disaster

prevention communications, PCM

switches

• Instrumentation

Testing equipment, measuring

equipment

If you wish to use in applications with lo w

level loads or with high frequency

switching, please consult us.

Impedance

50Ω

(Initial)

V.S.W.R. (Max.) 1.5 (at 900 MHz)

Insertion loss

(dB. Max.) 0.3 (at 900 MHz)

Isolation

(dB. Min.) 60 (at 1.5 GHz)

Impedance

75Ω

(Initial)

V.S.W.R. (Max.) 1.2 (at 900 MHz)

Insertion loss

(dB. Max.) 0.2 (at 900 MHz)

Isolation

(dB. Min.) 60 (at 1.5 GHz)

Contact arrangement

1R: Standard contact type

Reversed contact type

Operating function

Nil:

L2:

Single side stable

1 coil latching

2 coil latching

Coil voltage, DC

3, 4.5, 5, 6, 9, 12, 24 V

Notes: 1. For transistor drive with 5 V circuits, we recommend the 4.5 V type in order to take into account voltage drops.

2. No part number distinguishment on impedance in RK relays.

ASCTB73E 201201-T Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e

RoHS compliant

2. Reversed type

Standard packing: 50 pcs. in an inner package; 500 pcs. in an outer package

RATING

1. Coil data

1) Single side stable type

2) 1 coil latching type

3) 2 coil latching type

Contact

arrangement Nominal coil voltage Single side stable type 1 coil latching type 2 coil latching type

Part No. Part No. Part No.

1 Form C

reversed type

3 V DC RK1R-3V RK1R-L-3V RK1R-L2-3V

4.5V DC RK1R-4.5V RK1R-L-4.5V RK1R-L2-4.5V

5 V DC RK1R-5V RK1R-L-5V RK1R-L2-5V

6 V DC RK1R-6V RK1R-L-6V RK1R-L2-6V

9 V DC RK1R-9V RK1R-L-9V RK1R-L2-9V

12 V DC RK1R-12V RK1R-L-12V RK1R-L2-12V

24 V DC RK1R-24V RK1R-L-24V RK1R-L2-24V

Nominal coil

voltage Pick-up voltage

(at 20°C 68°F)Drop-out voltage

(at 20°C 68°F)

Nominal operating

current

[±10%] (at 20°C 68°F)

Coil resistance

[±10%] (at 20°C 68°F)Nominal operating

power Max. applied voltage

(at 60°C 140°F)

3 V DC

75%V or less of

nominal voltage

(Initial)

10%V or more of

nominal voltage

(Initial)

66.7mA 45Ω

200mW 110%V of nominal

voltage

4.5V DC 44.4mA 101Ω

5 V DC 40.0mA 125Ω

6 V DC 33.3mA 180Ω

9 V DC 22.2mA 405Ω

12 V DC 16.7mA 720Ω

24 V DC 8.3mA 2,880Ω

Nominal coil

voltage Set voltage

(at 20°C 68°F)Reset voltage

(at 20°C 68°F)

Nominal operating

current

[±10%] (at 20°C 68°F)

Coil resistance

[±10%] (at 20°C 68°F)Nominal operating

power Max. applied voltage

(at 60°C 140°F)

3 V DC

75%V or less of

nominal voltage

(Initial)

75%V or less of

nominal voltage

(Initial)

66.7mA 45Ω

200mW 110%V of nominal

voltage

4.5V DC 44.4mA 101Ω

5 V DC 40.0mA 125Ω

6 V DC 33.3mA 180Ω

9 V DC 22.2mA 405Ω

12 V DC 16.7mA 720Ω

24 V DC 8.3mA 2,880Ω

Nominal coil

voltage Set voltage

(at 20°C 68°F)Reset voltage

(at 20°C 68°F)

Nominal operating

current

[±10%] (at 20°C 68°F)

Coil resistance

[±10%] (at 20°C 68°F)Nominal operating

power Max. applied voltage

(at 60°C 140°F)

Set coil Reset coil Set coil Reset coil Set coil Reset coil

3 V DC

75%V or less of

nominal voltage

(Initial)

75%V or less of

nominal voltage

(Initial)

133.3mA 133.3mA 22.5Ω 22.5Ω

400mW 400mW 110%V of nominal

voltage

4.5V DC 88.9mA 88.9mA 50.6Ω 50.6Ω

5 V DC 80.0mA 80.0mA 62.5Ω 62.5Ω

6 V DC 66.7mA 66.7mA 90.0Ω 90.0Ω

9 V DC 44.4mA 44.4mA 202.5Ω 202.5Ω

12 V DC 33.3mA 33.3mA 360.0Ω 360.0Ω

24 V DC 16.7mA 16.7mA 1,440.0Ω1,440.0Ω

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2. Speciﬁcations

Note: * The upper operation ambient temperature limit is the maximum temperature that can satisfy the coil temperature rise value. Refer to [6] AMBIENT ENVIRONMENT

in GENERAL APPLICATION GUIDELINES.

REFERENCE DATA

Characteristics Item Speciﬁcations

Contact Arrangement 1 Form C

Contact material Stationary: Gold plating, Movable: Gold clad

Initial contact resistance, max. Max. 100mΩ (By voltage drop 10V AC 10mA)

Rating

Nominal switching capacity 0.01A 24V DC (resistive load), 10 W (at 1.2GHz, Impedance 50Ω)

Contact carrying power 10W (at 1.2GHz, Impedance 50Ω)

Max. switching voltage 30V DC

Max. switching current 0.5A

Nominal

operating

power

Single side stable 200mW

1 coil latching 200mW

2 coil latching 400mW

High frequency

characteristics (Initial)

(Impedance 50Ω)

V.S.W.R. Max. 1.5 (at 900MHz)

Insertion loss Max. 0.3dB (at 900MHz)

Isolation Min. 60dB (at 1.5GHz)

High frequency

characteristics (Initial)

(Impedance 75Ω)

V.S.W.R. Max. 1.2 (at 900MHz)

Insertion loss Max. 0.2dB (at 900MHz)

Isolation Min. 60dB (at 1.5GHz)

Electrical

characteristics

Insulation resistance (Initial) Min. 100MΩ (at 500V DC)

Measurement at same location as “Initial breakdown voltage” section.

Breakdown

voltage

(Initial)

Between open contacts 500 Vrms for 1min. (Detection current: 10mA)

Between contact and coil 1,000 Vrms for 1min. (Detection current: 10mA)

Between contact and earth terminal 500 Vrms for 1min. (Detection current: 10mA)

Temperature rise (at 20°C) Max. 60°C (By resistive method, nominal voltage applied to the coil and at nominal

switching capacity)

Operate time [Set time] (at 20°C) Max. 10ms (Approx. 6ms) [Max. 10ms [Approx. 5ms] (Nominal operating voltage applied

to the coil, excluding contact bounce time.)

Release time [Reset time] (at 20°C) Max. 6ms (Approx. 3ms) [Max. 10ms [Approx. 5ms] (Nominal operating voltage applied to

the coil, excluding contact bounce time.) (without diode)

Mechanical

characteristics

Shock

resistance Functional Min. 196 m/s2 {20 G} (Half-wave pulse of sine wave: 11ms; detection time: 10µs.)

Destructive Min. 980 m/s2 {100 G} (Half-wave pulse of sine wave: 6ms.)

Vibration

resistance Functional 10 to 55 Hz at double amplitude of 3mm (Detection time: 10µs.)

Destructive 10 to 55 Hz at double amplitude of 5mm

Expected life Mechanical Min. 5×106 (at 180 cpm)

Electrical (rated load) Min. 3×105 (10mA 24V DC (resistive load)), Min. 105 (10W, 1.2GHz, Impedance 50Ω)

Conditions Conditions for operation, transport and storage* Ambient temperature: –40°C to +70°C –40°F to +158°F

Humidity: 5 to 85% R.H. (Not freezing and condensing at low temperature)

Unit weight Approx. 4.4 g .155 oz

1.-(1) High frequency characteristics (Impedance 75Ω)

Sample: RK1-12V

Measuring method: Measured with HP network analyzer (HP8753C)

• V.S.W.R. characteristics • Insertion loss characteristics • Isolation characteristics

1.2

1.0

2.0

1.8

1.4

1.6

300kHz 1.5GHz 3GHz

COM-NC

Frequency

V.S.W.R.

COM-NO

0.8

1.0

0.2

0.6

0.4

300kHz 1.5GHz 3GHz

COM-NO

Frequency

Insertion loss, dB

COM-NC

100

300kHz 1.5GHz 3GHz

COM-NC

COM-NO

Frequency

Isolation, dB

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1.-(2) High frequency characteristics (Impedance 50Ω)

Sample: RK1-5V

Measuring method: Measured with HP network analyzer (HP8753C)

• V.S.W.R. characteristics • Insertion loss characteristics • Isolation characteristics

1.2

1.0

2.0

1.8

1.4

1.6

300kHz 1.5GHz 3GHz

COM-NO

COM-NC

Frequency

V.S.W.R.

0.8

1.0

0.2

0.6

0.4

300kHz 1.5GHz 3GHz

COM-NO

Frequency

Insertion loss, dB

COM-NC

100

300kHz 1.5GHz 3GHz

COM-NO

Frequency

Isolation, dB

COM-NC

2. Coil temperature rise

Sample: RK1-12V, RK1-L-12V, RK1-L2-12V

No. of samples: n = 6

Carrying current: 10 mA

Ambient temperature: 25°C 77°F

3.-(1) Operate/Release time

(Single side stable)

Sample: RK1-12V; No. of samples: n = 6

3.-(2) Set/Reset time (Latching)

Sample: RK1-L-12V, RK1-L2-12V

No. of samples: n = 12

100

80 100 130 150

RK1-L2-12V

RK1-12V,

RK1-L-12V

Voltage applied to coil, %V

Temperature rise, °C

80 100 120 150

Max.

Min.

Max.

Min.

Voltage applied to coil, %V

Operate/Reset time, ms

Operate time

Release time

80 100 130

Max.

Min.

Max.

Min.

Set time

Reset time

Voltage applied to the coil (%V)

Set/Reset time, ms

4.-(1) Mechanical life test (Single side stable)

Sample: RK1-12V; No. of samples: n = 12 4.-(2) Mechanical life test (Latching)

Sample: RK1-L2-12V

No. of samples: n = 12

4.-(3) Mechanical life test

Sample: RK1-12V

No. of samples: n = 20 (20 × 2 contacts)

100 500 1,000

Min.

Max.

Min.

Max.

No. of operations, ×104

Pick-up/drop-out voltage, V

Pick-up voltage

Drop-out voltage

100 500 1,000

Min.

Max.

No. of operations, ×104

Set/Reset voltage, V

100

150

200

250

300

50 100 500 1,000

Min.

Max.

No. of operations, ×104

Contact resistance, mΩ

5. Electrical life test (0.01 A 24 V DC)

Sample: RK1-12V; No. of samples: n = 6 6. Ambient temperature characteristics

Sample: RK1-12V; No. of samples: n = 6 7. Contact resistance distribution (initial)

Sample: RK1-12V

No. of samples: n = 50 (50 × 2 contacts)

10 20 30

Min.

Max.

Min.

Max.

No. of operations, ×104

Pick-up/drop-out voltage, V

Pick-up voltage

Drop-out voltage

–40

–40 –20

–4 020

–20

–40

Rate of change, %

Ambient temperature,

°C °F

104

140 80

176

Pick-up voltage

Drop-out voltage

10 20 30 40 50

Contact resistance, mΩ

Quantity

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DIMENSIONS (mm inch)

8.-(1) Inﬂuence of adjacent mounting

Sample: RK1-12V; No. of sample: n = 10 8.-(2) Inﬂuence of adjacent mounting

Sample: RK1-12V; No. of samples: n = 10

–10

.197 10

.394

ON ON

OFF OFF

OFF condition

ON condition

Inter-relay distance, (mm, inch)

Rate of change, % Rate of change, %

Pick-up voltage

Drop-out voltage ON

OFF

–10

.197 10

.394

OFF condition

Inter-relay distance, (mm, inch)

Rate of change, % Rate of change, %

ON condition

Drop-out voltage

Pick-up voltage

Single side stable and

1 coil latching

2 coil latching

General tolerance: ±0.3 ±.012

9.1

.358

7.62

.300

3.5

.138

2.54

.100

0.6

.024

20.2

.795 11.2

.441

2-0.6×0.3

2-.024×.012

4-0.6×0.25

4-.024×.010

3-0.45

3-.018

Stand-off

3-0.6×0.3

3-.024×.012

4-0.6×0.25

4-.024×.010

3-0.45

3-.018

Stand-off

PC board pattern (Bottom view)

Single side stable and

1 coil latching

2 coil latching

Tolerance: ±0.1 ±.003

7.62

.300

9-0.9 dia.

9-.035 dia.

2.54

.100

2.54

.100

7.62

.300

10-0.9 dia.

10-.035 dia.

2.54

.100

2.54

.100

Schematic (Bottom view)

Single side stable

(Deenergized condition)

1 coil latching

(Reset condition)

2 coil latching

(Reset condition)

Direction indication

COM NO

13 12 11 10 9 8

−+

+−

RESET

COM SET

13 12 11 10 9 8

Direction indication

617

RESET

COM SET

13 12 11 10 9 8

++−

Direction indication

CAD Data

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The CAD data of the products with a CAD Data mark can be downloaded from: http://industrial.panasonic.com/ac/e

NOTES

1. Coil operating power

Pure DC current should be applied to the

coil. The wave form should be

rectangular. If it includes ripple, the ripple

factor should be less than 5%.

However, check it with the actual circuit

since the characteristics may be slightly

different. The nominal operating voltage

should be applied to the coil for more

than 20 ms to set/reset the latching type

relay.

2. Coil connection

When connecting coils, ref er to the wiring

diagram to prevent mis-operation or

malfunction.

3. External magnetic ﬁeld

Since RK relays are highly sensitive

polarized relays, their characteristics will

be aff ected by a strong e xternal magnetic

ﬁeld. Avoid using the relay under that

condition.

4. Soldering and cleaning

1) Perform manual soldering under the

conditions below.

• Within 10 s at 260°C 500°F

• Within 3 s at 350°C 662°F

Preheat according to the following

conditions.

Soldering should be done at 260±5°C

500±9°F within 6 s.

2) For automatic cleaning, the boiling

method is recommended. Avoid

ultrasonic cleaning which subjects the

rela ys to high frequency vibrations, which

may cause the contacts to stick. It is

recommended that alcoholic solvents be

used.

5. Conditions for operation, transport

and storage conditions

1) Ambient temperature, humidity, and

atmospheric pressure during usage,

transport, and storage of the relay:

(1) Temperature:

–40 to +70°C –40 to +158°F

(2) Humidity: 5 to 85% RH

(Avoid freezing and condensation.)

The humidity range varies with the

temperature. Use within the range

indicated in the graph below.

(3) Atmospheric pressure: 86 to 106 kPa

Temperature and humidity range for

usage, transport, and storage:

2) Condensation

Condensation forms when there is a

sudden change in temperature under

high temperature and high humidity

conditions. Condensation will cause

deterioration of the relay insulation.

3) Freezing

Condensation or other moisture may

freeze on the rela y when the temperature

is lower than 0°C 32°F. This causes

problems such as sticking of movable

parts or operational time lags.

4) Low temperature, low humidity

environments

The plastic becomes brittle if the relay is

exposed to a low temperature, low

humidity environment for long periods of

time.

6. Latching relay

In order to assure proper operating

regardless of changes in the ambient

usage temperature and usage conditions,

nominal operating voltage should be

applied to the coil f or more than 30 ms to

set/reset the latching type relay.

Temperature 120°C 248°F or less

Time Within 2 minute

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Humidity, %RH

Temperature, °C °F

Tolerance range

+32 70

+158

–40

(Avoid freezing

when used at

temperatures lower

than 0°C 32°F

(Avoid

condensation

when used at

temperatures higher

than 0°C 32°F

For general cautions for use, please

refer to the “General Application

Guidelines”.

ASCTB73E 201201-T

Panasonic Corporation Automation Controls Business Unit industrial.panasonic.com/ac/e