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SERIES

MAGNETIC-LATCHING

ESTABLISHED RELIABILITY

TO-5 RELAYS

DPDT

SERIES

DESIGNATION

420/422

420D/422D

420DD/422DD

DPDT basic relay

DPDT relay with internal diode for coil transient suppression

DPDT relay with internal diodes for coil transient suppression and polarity

reversal protection

RELAY TYPE

420/422

ESTABLISHED RELIABILITY

DESCRIPTION

The Series 420D/422D and 420DD/422DD utilize discrete diodes for

coil suppression and polarity reversal protection.

By virtue of its inherently low intercontact capacitance and contact

circuit losses, these TO-5 relays have proven to be excellent

ultraminiature RF switches for frequency ranges well into the UHF

spectrum. A typical RF application for these TO-5 relays is in

handheld radio receivers, wherein the combined features of good RF

performance, small size, very low coil power dissipation and high

reliability make it a preferred method of transmit-receive switching

(see Figure 1).

The Series 420/422 magnetic-latching relays are ideally suited for

applications where power dissipation must be minimized. The relays

can be operated with a short duration pulse. After the contacts have

transferred, no external holding power is required.

The magnetic latching feature of the Series 420/422 relays provide

a “memory” capability, since the relays will not reset upon removal of

coil power.

The magnetic-latching TO-5 relay, originally conceived and

developed by Teledyne, has become one of the industry standards

for low-level switching from dry circuit to 1 ampere. Designed for

high-density PC board mounting, its small size and low coil power

dissipation make the 420 and 422 relays some of the most versatile

ultraminiature relays available.

The following unique construction features and manufacturing

techniques provide excellent resistance to environmental extremes

and overall high reliability:

• All welded construction.

• Unique uni-frame design providing high magnetic efficiency and

mechanical rigidity.

• High force/mass ratios for resistance to shock and vibration.

• Advanced cleaning techniques provide maximum assurance of

internal cleanliness.

• Precious metal alloy contacts material with gold plating assures

excellent high current and dry circuit switching capabilities.

PERMANENT MAGNET

MAGNETIC CIRCUIT A

SOFT IRON FRAME

PRINCIPLE OF OPERATION

MAGNETIC CIRCUIT B

Energizing Coil B produces a magnetic field

COIL A

COIL B

opposing the holding flux of the permanent magnet

SOFT IRON

in Circuit B. As this net holding force decreases, the

SOFT IRON

COIL A

COIL B

attractive force in the air gap of Circuit A, which also

AIR GAP

SOFT IRON

ARMATURE

results from the flux of the permanent magnet,

STATIONARY

CONTACT

becomes great enough to break the armature free

of Core B, and snap it into a closed position against

Core A. The armature then remains in this position

MOVING

CONTACT

upon removal of power from Coil B, but will snap

back into position B upon energizing Coil A. Since operation depends upon cancellation

of a magnetic field, it is necessary to apply the correct polarity to the relay coils as

indicated on the relay schematic. When latching relays are installed in equipment, the

latch and reset coils should not be pulsed simultaneously. Coils should not be pulsed

with less than rated coil voltage and the pulse width should be a minimum of three times

the specified operate time of the relay. If these conditions are not followed, it is possible

for the relay to be in the magnetic neutral position.

ENVIRONMENTAL AND

PHYSICAL SPECIFICATIONS

Temperature

(Ambient)

Vibration

(General Note 1)

Shock

(General Note 1)

Acceleration

Enclosure

Weight

–65°C to +125°C

30 g’s to 3000 Hz

100 g’s,

6 msec, half-sine

50 g’s

Hermetically sealed

0.10 oz. (2.84g) max.

420 422 Page 62

420 422/1203/Q1

SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE

www.teledynerelays.com

SERIES 420/422

GENERAL ELECTRICAL SPECIFICATIONS (–65°C to +125°C unless otherwise noted) (Notes 2 & 3)

Contact Arrangement

Rated Duty

Contact Resistance

Contact Load Ratings (DC)

(See Fig. 2 for other DC

resistive voltage/current ratings)

Contact Load Ratings (AC)

Contact Life Ratings

Contact Overload Rating

Contact Carry Rating

Coil Operating Power

Operate Time

Contact Bounce

Minimum Operate Pulse

Intercontact Capacitance

Insulation Resistance

Dielectric Strength

Negative Coil Transient (Vdc)

Diode P.I.V. (Vdc)

2 Form C (DPDT)

Continuous

0.125 ohm max. before life; 0.225 ohm max. after life at 0.5A/28Vdc (measured 1/8" from header)

Resistive:

Inductive:

Lamp:

Low Level:

Resistive:

1 Amp/28Vdc

200 mA/28Vdc (320 mH)

100 mA/28Vdc

10 to 50 µA/10 to 50mV

250 mA/115Vac, 60 and 400 Hz (Case not grounded)

100 mA/115Vac, 60 and 400 Hz (Case grounded)

10,000,000 cycles (typical) at low level

1,000,000 cycles (typical) at 0.5A/28Vdc resistive

100,000 cycles min. at all other loads specified above

2A/28Vdc Resistive (100 cycles min.)

Contact factory

290 milliwatts typical at nominal rated voltage @ 25°C

420/422, 420D/422D: 1.5 msec max. at nominal rated coil voltage

420DD/422DD: 2.0 msec max. at nominal rated coil voltage

2.0 msec max.

4.5 msec width @ rated voltage

0.4 pf typical

10,000 megohms min. between mutually isolated terminals

Atmospheric pressure: 500 Vrms/60Hz

70,000 ft.: 125 Vrms/60Hz

420D/422D, 420DD/422DD

1.0 max

420D/422D, 420DD/422DD

100 min.

ESTABLISHED RELIABILITY

DETAILED ELECTRICAL SPECIFICATIONS (–65°C to +125°C unless otherwise noted) (Note 3)

BASE PART

NUMBERS

(See Note 8 for full P/N example)

Coil Voltage (Vdc)

Coil Resistance

(Ohms ±10% @25°C)

Coil Current (mAdc @25°C)

(420DD/422DD Series only)

Set & Reset Voltage

(Vdc, Max.)

Nom.

Max.

420/422,

420D/420D

420DD/422DD

(Note 4)

Min.

Max.

420/422,

420D/422D

420DD/422DD

420/422-5

420D/422D-5

420DD/422DD-5

420/422-6

420D/422D-6

420DD/422DD-6

420/422-9

420/422-12

420/422-18

420/422-26

420D/422D-9

420D/422D-12

420D/422D-18

420D/422D-26

420DD/422DD-9 420DD/422DD-12 420DD/422DD-18 420DD/422DD-26

5.0

6.0

75.8

104.2

3.5

4.5

6.0

8.0

120

46.9

63.0

4.5

5.5

9.0

12.0

280

26.0

33.7

6.8

7.8

12.0

16.0

500

20.0

25.5

9.0

10.0

18.0

24.0

1130

13.7

17.2

13.5

14.5

26.5

32.0

2000

11.6

14.4

18.0

19.0

PERFORMANCE CURVES

(NOTE 2)

TYPICAL RF PERFORMANCE

TYPICAL DC CONTACT RATING (RESISTIVE)

INS

ERT

ION

LOS

300

LOAD VOLTAGE (VDC)

250

200

150

100

.01

0.5

1.92

RETU

TION

OLA

LOSS

ROS

(VSW

1.22

1.02

1.01

1.00

1.0

VSWR

ACT

ONT

OLES

1.07

ION A

OLAT

OSS P

0.1

0.2

0.3

0.4

0.5

0.6

0.7

0.8

0.9

1.0

FREQUENCY (GHz)

LOAD CURRENT (AMPS DC)

FIGURE 1

FIGURE 2

420 422 Page 63

SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE

www.teledynerelays.com

420 422/1203/Q1

SERIES 420/422

OUTLINE DIMENSIONS

CASE DETAIL

.370

(9.40)

DIA. MAX.

.335

(8.51)

DIA. MAX.

.035 (.89)

.010 (0.25)

.035 (.89)

.010 (0.25)

TERMINAL LOCATIONS AND PIN NUMERING (REF ONLY)

(Viewed from Terminals)

.031 (.79)

.003 (0.08)

.031 (.79)

.003 (0.08)

36°

±3°

TYP.

.280 (7.11) MAX.

WIRE LEAD: .75 (19.05) MIN.

PIN: .187 (4.75)

.010 (.25)

(See Note 6)

.200 (5.08)

.010 (.25) DIA.

36°

±3°

TYP.

.200 (5.08)

.010 (.25) DIA.

420

422

ESTABLISHED RELIABILITY

+.002 (.05)

.017 (.43) –.001 (.03) DIA.

DIMENSIONS ARE SHOWN IN INCHES (MILLIMETERS)

SCHEMATIC DIAGRAMS

COIL B

GENERAL NOTES

1. Relay contacts will exhibit no chatter in excess of 10 µsec

or transfer in excess of 1 µsec.

2. “Typical” characteristics are based on available data and

are best estimates. No on-going verification tests are

performed.

3. Unless otherwise specified, parameters are initial values.

4. For reference only. Coil resistance not directly measurable

at relay terminals due to internal series diode. 420DD and

422DD only.

5. Unless otherwise specified, relays will be supplied with

either gold-plated or solder-coated leads.

6. The slash and characters appearing after the slash are

not marked on the relay.

7. Screened HI-REL versions available. Contact factory.

COIL A

420

COIL B

420D

COIL B

420DD

COIL A

422

422D

422DD

SCHEMATICS ARE VIEWED FROM TERMINALS

CONTACTS SHOWN IN POSITION RESULTING WHEN COIL A LAST ENERGIZED

Teledyne Part Numbering System for

® Established Reliability Relay

Established Reliability

Designator

422 X

M - 26

A / S Q

Q= Solder Coated Leads

G= Gold Plated Leads

(Notes 5 and 6)

S= 0.187" leads

(Note 6)

Screening and Reliability

Level

Coil Voltage

Relay Series

Optional Ground Pin

(See Appendix)

Pad Option

(See Appendix)

Teledyne Part Numbering System for Military Qualified (JAN) Relays

Military (JAN)

Designator

422 X

M -

Screening and Reliability

Level

Terminal Variant

P = 0.187"

Coil Voltage

Relay Series

Optional Ground Pin

(See Appendix)

Pad Option

(See Appendix)

SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE

www.teledynerelays.com

420 422 Page 64

420 422/1203/Q1

Spacer Pads

APPENDIX

Relay Options Page 119

SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE

www.teledynerelays.com

ROP/1203/Q1

Spreader Pads

APPENDIX

SPECIFICATIONS ARE SUBJECT TO CHANGE WITHOUT NOTICE

www.teledynerelays.com

Relay Options Page 120

ROP/1203/Q1

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