39509040010 - HARTING TECHNOLOGY GROUP

Catalog

2017

Legacy

Schneider Electric

Solid-State Relays

Contents Legacy Solid-State Relays

• Series Overview � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �3

• 861 Relays � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �4

• 861H Relays � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �7

• SSRDIN Relays � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �10

• 6000 Series Relays � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �13

• Accessories for 6000 Series Relays � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �17

• 70S2 Series Relays � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �19

• Application Data � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �24

• Selection Guide � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �29

• Website Guide � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � � �30

Series Defining

Feature Style

Internal

Heat

Sink

Contact

Configuration

Output

Current

Range (A)

Input

Voltage

Range

Output

Voltage

Range

Page

861

Slim

17�5 mm

profile

Slim DIN and

panel mount Yes SPST-NO

SPST-NC 8–15 3–32 Vdc

90–280 Vac

3–150 Vdc

24–480 Vac 6

861H

Class I,

Division 2

certified

for use in

hazardous

locations

Slim DIN and

panel mount Yes SPST-NO

SPST-NC 8–15 3–32 Vdc

90–280 Vac

3–150 Vdc

24–480 Vac 9

SSRDIN

Integrated

heat sink and

high current

switching

capacity

DIN and panel

mount Yes SPST-NO 10–45 4–32 Vdc

90–280 Vac

0–60 Vdc

24–660 Vac 12

6000

High current

switching

capacity in a

small package

Hockey puck—

panel mount No SPST-NO

DPST-NO 10–75 3–32 Vdc

90–280 Vac

3–200 Vdc

24–480 Vac 15

70S2

Small

package

size

PCB and panel

mount No SPST-NO 3–25 3–32 Vdc 3–60 Vdc

8–280 Vac 21

Series Overview Legacy Solid-State Relays

Legacy Schneider Electric™ solid-state relays offer a number of advantages over

electromechanical relays, including longer life cycles, less energy consumption and

reduced maintenance costs, depending on the application�

Key Features

• 100% solid-state design

• Modern appearance and advanced technology

• Industry first design (861 and 861H series)

• Several styles to fit multiple applications

861 Relay

861H Relay

SSRDIN Relay

6000 Series Relays

70S2 Series Relays

Description

The 861 is the first complete solid-state relay without any moving parts, all in a slim

17�5 mm design�

Switching Type Switching Device (1) Input Voltage Range Output Voltage Range Contact Configuration Rated Output Current (A) Standard Part Number

DC Switching MOSFET 3�5–32 Vdc 3–50 Vdc SPST-NO 15 861SSR115-DD

3–150 Vdc SPST-NO 8 861SSR208-DD

AC Random

Triac

3–32 Vdc

24–280 Vac SPST-NO 8 861SSRA208-DC-2

24–280 Vac SPST-NC 8 861SSRA208-DC-4

48–480 Vac SPST-NO 8 861SSRA408-DC-2

90–280 Vac 24–280 Vac SPST-NO 8 861SSRA208-AC-2

48–480 Vac SPST-NO 8 861SSRA408-AC-2

SCR

3–32 Vdc

24–280 Vac SPST-NO 10 861SSR210-DC-2

24–280 Vac SPST-NC 10 861SSR210-DC-4

48–480 Vac SPST-NO 10 861SSR410-DC-2

48–480 Vac SPST-NO 10 861SSR610-DC-2

90–280 Vac

24–280 Vac SPST-NO 10 861SSR210-AC-2

48–480 Vac SPST-NO 10 861SSR410-AC-2

48–600 Vac SPST-NO 10 861SSR610-AC-2

AC Zero Cross

Triac

3–32 Vdc 24–280 Vac SPST-NO 8 861SSRA208-DC-1

48–480 Vac SPST-NO 8 861SSRA408-DC-1

90–280 Vac 24–280 Vac SPST-NO 8 861SSRA208-AC-1

48–480 Vac SPST-NO 8 861SSRA408-AC-1

SCR

3–32 Vdc

24–280 Vac SPST-NO 10 861SSR210-DC-1

48–480 Vac SPST-NO 10 861SSR410-DC-1

48–600 Vac SPST-NO 10 861SSR610-DC-1

90–280 Vac

24–280 Vac SPST-NO 10 861SSR210-AC-1

48–480 Vac SPST-NO 10 861SSR410-AC-1

48–600 Vac SPST-NO 10 861SSR610-AC-1

Part Number Explanation

Series:

861

Output Type:

SSR = SCR

SSR = MOSFET (DD only)

SSRA = TRIAC Output Voltage:

1 = 3–50 Vdc

2 = 24–280 Vac

2 = 3–150 Vdc (DD Only)

4 = 48–480 Vac

6 = 48–600 Vac

Output Current:

08 = 8 A

10 = 10 A

15 = 15 A

Input Voltage:

AC = 90–280 Vac

DC = 3–32 Vdc

DD = 3�5–32 Vdc

Contact Configuration &

Switching Type:

1 = SPST-NO, AC Zero Cross

2 = SPST-NO, AC Random

4 = SPST-NC, AC Random

Null = SPST-NO, DC Switching

Feature Benefit

Solid-state circuitry Involves no moving parts, which extends product life,

increases reliability, and enables silent operation

Optically coupled circuit Provides isolation between input and output circuits

Internal snubber Helps protect the relay’s internal circuit from high

voltage transients

Internal heat sink Provides factory-tested thermal management

Finger protected terminals (per IP20) Help prevent an operator from touching live circuits

DIN and panel mounting Mounts directly onto a DIN rail or panel, and provides

flexibility to accommodate last-minute design changes

Description Legacy Solid-State Relays

861

SPST-NO, 8–15 A

SPST-NC, 10 A

861 Relay

Specifications (UL 508)

Specications Legacy Solid-State Relays

861

SPST-NO, 8–15 A

SPST-NC, 10 A

Part Number 861SSR•••-DD 861SSRA•••-DC-• 861SSR•••-DC-• 861SSRA•••-AC-• 861SSR•••-AC-•

Input Characteristics

Input Voltage Range 3.5–32 Vdc 3–32 Vdc 90–280 Vac

Must Release Voltage 1 Vdc 10 Vac

Nominal Input Impedance Current regulator 16–25 kW

Typical Input Current at 5 Vdc 12mA 16 mA;

12 mA

(861SSR210-DC-4)

12mA

Reverse Polarity Protection Yes N/A

Output Characteristics

Switching Device MOSFET Triac SCR Triac SCR

Switching Type DC Switching AC Zero Cross; AC Random

Contact Conguration SPST-NO SPST-NO; SPST-NC

Output Voltage Range 3–50 Vdc; 3–150 Vdc 24–280 Vac; 48–480 Vac; 48–600 Vac

Maximum Rate of Rise, Off-State Volt-

age (dv/dt)

N/A 250 V/us 500 V/us;

350 V/us (861SSR410,

861SSR610-DC-1);

200 V/us (861SSR210-

DC-4, 861SSR610-DC-2)

250 V/us 500 V/us;

350 V/us (861SSR410);

250 V/us (861SSR610)

Current Ratings Load rating: 8 A rms,

15 A rms

Load rating: 8 A (rms)

Incandescent lamp

rating: 5 A (rms)

Motor load rating:

3 A (rms)

Load rating: 10 A (rms)

Incandescent lamp rat-

ing: 8 A (rms)

Motor load rating:

4.5 A (rms)

Load rating: 8 A (rms)

Incandescent lamp rat-

ing: 5 A (rms)

Motor load rating:

3 A (rms)

Load rating: 10 A (rms)

Incandescent lamp rat-

ing: 8 A (rms)

Motor load rating:

4.5 A (rms)

Minimum Load Current–Maintain On 20mA 150mA 50 mA 150mA 50 mA

Non-Repetitive Surge Current (1 cycle) 861SSR115-DD: 35 A;

861SSR208-DD: 50 A

200 A 500 A 200 A 500 A

Maximum RMS Overload Current (1 s) 861SSR115-DD: 17 A;

861SSR208-DD: 24 A

24 A

Maximum Off-State Leakage Current 0.25 mA 10 mA (rms)

Typical On-State Voltage Drop N/A 1.25 Vac (rms)

Maximum On-State Voltage Drop 0.5 Vdc 1.6 Vac (rms)

Maximum On-State Resistance 40 mW N/A

Maximum Turn-On Time 5 ms 8.3 ms

Maximum Turn-Off Time 5 ms 8.3 ms

Maximum I² T for Fusing N/A 250 A²sec 1250 A²sec

(861SSR210);

850 A²sec (861SSR410);

600 A²sec (861SSR610)

250 A²sec 1250 A²sec (861SSR210);

850 A²sec (861SSR410);

600 A²sec (861SSR610)

General Characteristics

Electrical Life N/A for solid-state relays

Thermal Resistance (Junction-Case) 861SSR115-DD: 0.5 °C/W;

861SSR208-DD: 1.4 °C/W

2.00 °C/W 0.66 °C/W 2.00 °C/W 0.66 °C/W

Internal Heat Sink 4.0 °C/W

Dielectric Strength (Input–Output) 2500 V (rms) 4000 V (rms)

Dielectric Strength (Terminals–Chassis) 2500 V (rms)

Operating Temperature Range −30 to +80 °C (derating applies)

Storage Temperature Range −40 to +100 °C

Weight 127.1 g (4.1 oz)

Input Indication Green LED

Terminal Wire Capacity (Input and

Output)

14 AWG (2.5 mm²) maximum

Terminal Screw Torque 7.1 lb-in (0.8 N•m) maximum

Safety Cover IP20

Agency Approvals CULus (File: E258297 CCN: NRNT, NRNT7), cURus (File: E258297 CCN: NRNT2, NRNT8), CSA (File: 40787 Class: 3211 04); CE; RoHS

INPUT

OUTPUT

POWER SOURCE

POWER SUPPLY

SSR

–

LOAD

(–) 18A2 (–)

(+) 15A1 (+)

MOSFET ONLY

0.56

(14.2)

0.3

0.7

(17.6)

0.2

(5.0)

(6.9)

3.5

2.6

1.8

(90)

(66.8)

(45.3) 1.4

(35.6)

0.1

0.7

1.4

2.6 MAX.

(16.0)

(34.6)

(65.0)

0.2

0.6

(6)

(15.8)

(3.4)

0.6

(14.0)

1.4

(35.2)

0.6

(14.3)

0.1

(1.7)

3.6

(92.4)

0.2

(5)

INPUT

OUTPUT

Derating Curves

Ambient Temperature in °C

Load Current in Amperes

0 10 20 30 40 50 60 70 80 90

5 15 25 35 45 55 65 75 85

Note: A minimum spacing of 17.5 mm (0.7 in.) is required between

adjacent 861 relays in order to acheive the maximum ratings.

Dimensions,

Wiring Diagram,

Derating Curves

Legacy Solid-State Relays

861

SPST-NO, 8–15 A

SPST-NC, 10 A

Dimensions: in. (mm)

Wiring Diagram

Description

The 861H is a patented solid-state relay, in a slim 17�5 mm design, approved for

use in hazardous locations�

Switching Type Switching Device (1) Input Voltage Range Output Voltage Range Contact Conguration Rated Output Current (A) Standard Part Number

DC Switching MOSFET 3.5–32 Vdc 3–50 Vdc SPST-NO 15 861HSSR115-DD

3–150 Vdc SPST-NO 8 861HSSR208-DD

AC Random Triac 3–32 Vdc 24–280 Vac SPST-NO 8 861HSSRA208-DC-2

SPST-NC 8 861HSSRA208-DC-4

48–480 Vac SPST-NO 8 861HSSRA408-DC-2

90–280 Vac 24–280 Vac SPST-NO 8 861HSSRA208-AC-2

48–480 Vac SPST-NO 8 861HSSRA408-AC-2

SCR 3–32 Vdc 24–280 Vac SPST-NO 10 861HSSR210-DC-2

SPST-NC 10 861HSSR210-DC-4

48–480 Vac SPST-NO 10 861HSSR410-DC-2

SPST-NO 10 861HSSR610-DC-2

90–280 Vac 24–280 Vac SPST-NO 10 861HSSR210-AC-2

48–480 Vac SPST-NO 10 861HSSR410-AC-2

48–600 Vac SPST-NO 10 861HSSR610-AC-2

AC Zero Cross Triac 3–32 Vdc 24–280 Vac SPST-NO 8 861HSSRA208-DC-1

48–480 Vac SPST-NO 8 861HSSRA408-DC-1

90–280 Vac 24–280 Vac SPST-NO 8 861HSSRA208-AC-1

48–480 Vac SPST-NO 8 861HSSRA408-AC-1

SCR 3–32 Vdc 24–280 Vac SPST-NO 10 861HSSR210-DC-1

48–480 Vac SPST-NO 10 861HSSR410-DC-1

48–600 Vac SPST-NO 10 861HSSR610-DC-1

90–280 Vac 24–280 Vac SPST-NO 10 861HSSR210-AC-1

48–480 Vac SPST-NO 10 861HSSR410-AC-1

48–600 Vac SPST-NO 10 861HSSR610-AC-1

Feature Benefit

Class I, Division 2

certification (1)

UL certified for Class I Division 2

Hazardous Locations per ISA 12�12

Solid-state circuitry Involves no moving parts, which extends product life,

increases reliability, and enables silent operation

Optically coupled circuit Provides isolation between input and output circuits

Internal snubber Helps protect the relay’s internal circuit from high

voltage transients

Internal heat sink Provides factory-tested thermal management

Finger protected terminals (per IP20) Help prevent an operator from touching live circuits

DIN and panel mounting Mounts directly onto a DIN rail or panel, and provides

flexibility to accommodate last-minute design changes

(1) See page 29 for more information on Class I, Division 2.

Class I, Division 2 certification for

use in hazardous locations.

(Temperature code: T5)

Part Number Explanation

Series:

861H

Output Type:

SSR = SCR

SSR = MOSFET (DD only)

SSRA = TRIAC Output Voltage:

1 = 3–50 Vdc

2 = 24–280 Vac

2 = 3–150 Vdc (DD Only)

4 = 48–480 Vac

6 = 48–600 Vac

Output Current:

08 = 8 A

10 = 10 A

15 = 15 A

Input Voltage:

AC = 90–280 Vac

DC = 3–32 Vdc

DD = 3�5–32 Vdc

Contact Configuration &

Switching Type:

1 = SPST-NO, AC Zero Cross

2 = SPST-NO, AC Random

4 = SPST-NC, AC Random

Null = SPST-NO, DC Switching

Description Legacy Solid-State Relays

861H

SPST-NO, 8–15 A

861H Relay

Specifications (UL 508)

Part Number 861HSSR•••-DD 861HSSRA•••-DC-• 861HSSR•••-DC-• 861HSSRA•••-AC-• 861SSR•••-AC-•

Input Characteristics

Input Voltage Range 3�5–32 Vdc 3–32 Vdc 90–280 Vac

Must Release Voltage 1 Vdc 10 Vac

Nominal Input Impedance Current regulator 16–25 kW

Typical Input Current at 5 Vdc 12 mA 16 mA (12 mA for

861HSSR210-DC-4)

12 mA

Reverse Polarity Protection Yes N/A

Output Characteristics

Switching Device MOSFET Triac SCR Triac SCR

Switching Type DC Switching AC Zero Cross; AC Random

Contact Configuration SPST-NO SPST-NO, SPST-NC

Output Voltage Range 3–50 Vdc; 3–150 Vdc 24–480 Vac; 48–480 Vac; 48–600 Vac

Maximum Rate of Rise

Off-State Voltage (dv/dt)

N/A 250 V/us 500 V/us,

350 V/us (861HSSR410,

861HSSR610-DC-1),

200 V/us (861HSSR210-

DC-4, 861HSSR610-DC-2)

250 V/us 500 V/us,

350 V/us

(861HSSR410),

250 V/us

(861HSSR610)

Current

Ratings

Load rating 8 A (rms), 15 A (rms) 8 A (rms) 10 A (rms) 8 A (rms) 10 A (rms)

Incandescent

lamp rating

N/A 5 A (rms) 8 A (rms) 5 A (rms) 8 A (rms)

Motor load rating N/A 3 A (rms) 4�5 A (rms) 3 A (rms) 4�5 A (rms)

Minimum Load Current–

Maintain On

20 mA 150 mA 50 mA 150 mA 50 mA

Non-Repetitive Surge Current

(1 cycle)

861HSSR115-DD: 35 A;

861HSSR208-DD: 50 A

200 A 500 A 200 A 500 A

Maximum RMS Overload

Current (1 s)

861HSSR115-DD: 17 A;

861HSSR208-DD: 24 A

24 A

Maximum Off-State

Leakage Current

0�25 mA 10 mA (rms)

Typical On-State Voltage Drop N/A 1�25 Vac (rms)

Maximum On-State Voltage

Drop

0�5 Vdc 1�6 Vac (rms)

Maximum On-State Resistance 40 mWN/A

Maximum Turn-On Time 5 ms 8�3 ms

Maximum Turn-Off Time 5 ms 8�3 ms

Maximum I² T for Fusing N/A 250 A²sec 1250 A²sec

(861HSSR210);

850 A²sec

(861HSSR410);

600 A²sec

(861HSSR610)

250 A²sec 1250 A²sec

(861HSSR210);

850 A²sec

(861HSSR410);

600 A²sec

(861HSSR610)

General Characteristics

Electrical Life N/A for solid-state relays

Thermal Resistance

(Junction–Case)

861HSSR115-DD: 0�5 °C/W;

861HSSR208-DD: 1�4 °C/W

2�00 °C/W 0�66 °C/W 2�00 °C/W 0�66 °C/W

Internal Heat Sink 4�0 °C/W

Dielectric

Strength

Input–Output 2500 V (rms) 4000 V (rms)

Terminals–Chassis 2500 V (rms)

Operating Temperature Range −30 to +80 °C (derating applies)

Storage Temperature Range −40 to +100 °C

Weight 127�1 g (4�1 oz)

Input Indication Green LED

Terminal Wire Capacity

(Input and Output)

14 AWG (2�5 mm²) maximum

Terminal Screw Torque 7�1 lb-in (0�8 N•m) maximum

Safety Cover IP20

Agency Approvals UL certified for Class I, Division 2 Hazardous Locations; per ISA 12�12�1, cURus (File: E317746 CCN: NQMJ2, NQMJ8), CSA

(File: 40787 Class: 3211 04); CE; RoHS

Specications Legacy Solid-State Relays

861H

SPST-NO, 8–15 A

Wiring Diagram

INPUT

OUTPUT

POWER SOURCE

POWER SUPPLY

SSR

–

LOAD

(–) 18A2 (–)

(+) 15A1 (+)

MOSFET ONLY

0.56

(14.2)

0.3

0.7

(17.6)

0.2

(5.0)

(6.9)

3.5

2.6

1.8

(90)

(66.8)

(45.3) 1.4

(35.6)

0.1

0.7

1.4

2.6 MAX.

(16.0)

(34.6)

(65.0)

0.2

0.6

(6)

(15.8)

(3.4)

0.6

(14.0)

1.4

(35.2)

0.6

(14.3)

0.1

(1.7)

3.6

(92.4)

0.2

(5)

INPUT

OUTPUT

Derating Curves

Ambient Temperature in °C

Load Current in Amperes

0 10 20 30 40 50 60 70 80 90

5 15 25 35 45 55 65 75 85

Note: A minimum spacing of 17.5 mm (0.7 in.) is required between

adjacent 861 relays in order to acheive the maximum ratings.

Dimensions,

Wiring Diagram,

Derating Curves

Legacy Solid-State Relays

861H

SPST-NO, 8–15 A

Dimensions: in. (mm)

Description

The SSRDIN relays offer a complete solid-state package that is an energy-efficient,

current switching alternative to standard electromechanical relays� Advantages

include longer life cycles, less energy consumption, and reduced maintenance costs�

Switching Type Switching

Device (1)

Input Voltage

Range

Output Voltage

Range

Contact

Configuration

Rated Output

Current (A) Standard Part Number

DC Switching MOSFET 4–32 Vdc 0–60 Vdc SPST-NO

10 SSR310DIN-DC22

20 SSR320DIN-DC22

30 SSR330DIN-DC22

AC Zero Cross SCR

4–32 Vdc 24–280 Vac SPST-NO

10 SSR210DIN-DC22

20 SSR220DIN-DC22

30 SSR230DIN-DC22

3–32 Vdc 24–280 Vac SPST-NO 45 SSR245DIN-DC45

4–32 Vdc 48–660 Vac SPST-NO

10 SSR610DIN-DC22

20 SSR620DIN-DC22

30 SSR630DIN-DC22

45 SSR645DIN-DC45

65 SSR665DIN-AC45

90–280 Vac 24–280 Vac SPST-NO

10 SSR210DIN-AC22

20 SSR220DIN-AC22

30 SSR230DIN-AC22

90–140 Vac 24–280 Vac SPST-NO 45 SSR245DIN-AC45

90–280 Vac 48–660 Vac SPST-NO

10 SSR610DIN-AC22

20 SSR620DIN-AC22

30 SSR630DIN-AC22

90–140 Vac 48–660 Vac SPST-NO 45 SSR645DIN-AC45

65 SSR665DIN-AC45

(1) See page 28 for definitions of the different switching devices.

Feature Benefit

Solid-state circuitry Involves no moving parts

Optically coupled circuit Provides isolation between input and output circuits

Internal snubber Helps protect the relay’s internal circuit from high

voltage transients

Internal heat sink Provides factory tested thermal management

Integrated chassis ground Simplifies system wiring

Finger protected terminals Help prevent an operator from touching live circuits

DIN and panel mounting Increases functionality and ease of use, and fits a

variety of applications

Part Number Explanation

Series

SSR

Output Voltage

2 = SCR, 24–280 Vac

3 = MOSFET, 0–60 Vdc

6 = SCR, 48–660 Vac

Current Rating

10 = 10 A

20 = 20 A

30 = 30 A

45 = 45 A

65 = 65 A

Input Voltage

AC = 90–280 Vac (10/20/30 A)

AC = 90–140 Vac (45 A)

DC = 4–32 Vdc (10/20/30 A)

DC = 3–32 Vdc (45 A)

Size

22 = 22 mm width

45 = 45 mm width

SSRDIN Relay

Description Legacy Solid-State Relays

SSRDIN

SPST-NO, 10–45 A

Specifications (UL 508)

Part Number SSR2••DIN-DC•• SSR3••DIN-DC22 SSR6••DIN-DC•• SSR2••DIN-AC•• SSR6••DIN-AC••

Input Characteristics

Input Voltage Range 10/20/30 A: 4–32 Vdc;

45/65 A: 3–32 Vdc

10/20/30 A: 90–280 Vac;

45/65 A: 90–140 Vac

Maximum Turn-On Voltage 4 Vdc 90 Vrms

Minimum Turn-Off Voltage 1 Vdc 10 Vrms

Typical Input Current 8–12 mA 9–11 mA 8–12 mA 2–4 mA

Output Characteristics

Output Type SCR MOSFET SCR

Switching Type AC Zero Cross DC Switching AC Zero Cross

Output Voltage 24–280 Vac 0–60 Vdc 48–660 Vac 24–280 Vac 48–660 Vac

Load Current Range 10–45 A 10–30 A 10–45 A

Transient Overvoltage 600 Vpk N/A 1200 Vpk 600 Vpk 1200 Vpk

Maximum Surge Current 10 A: 120 Apk;

20 A: 250 Apk;

30/45 A: 625 Apk

(at 16�6 ms)

10 A: 30 Apk;

20 A: 60 Apk;

30 A: 90 Apk

(at 10 ms)

625 Apk

(at 16�6 ms)

10 A: 120 Apk;

20 A: 250 Apk;

30/45 A: 625 Apk

(at 16�6 ms)

625 Apk

(at 16�6 ms)

Maximum On-State Voltage Drop

at Rated Current

1�6 Vpk 10 A: 0�2 Vpk;

20 A: 0�4 Vpk;

30 A: 0�5 Vpk

1�6 Vpk 1�6 Vpk 1�6 Vpk

Maximum I²t For Fusing,

(8�3 ms)

10 A: 60 A²sec;

20 A: 260 A²sec;

30/45 A: 1620 A²sec

N/A 1620 A²sec 10 A: 60 A²sec;

20 A: 260 A²sec;

30/45 A: 1620 A²sec

1620 A²sec

Maximum Off-State Leakage

Current at Rated Voltage

10 mA 0�1 mA 1 mA 10 mA 1 mA

Maximum Rate of Rise Off-State

Voltage (dv/dt)

500 V/us N/A 500 V/us

Maximum Response Time

(On and Off)

1/2 cycle 1�0 ms 1/2 cycle

Maximum On-State Resistance N/A 10 A: 20 mW;

20 A: 18 mW;

30 A: 16 mW

N/A

General Characteristics

Electrical Life N/A for solid-state relays

Operating Temperature Range −40 to +80 °C (derating applies)

Storage Temperature Range −40 to +125 °C

Weight 10/20/30 A: 272 g (9�6 oz);

45/65 A: 482 g (17 oz)

Input Indication Green LED

Encapsulation Thermally conductive epoxy

Input Terminal Screw Torque 10/20/30 A: 5�0–6�0 lb-in (0�6–0�7 N•m);

45/65 A: 5�0–6�0 lb-in (0�6–0�7 N•m)

Output Terminal Screw Torque 10/20/30 A: 5�0–6�0 lb-in (0�6–0�7 N•m);

45/65 A: 10�0–15�0 lb-in (1�1–1�7 N•m)

Mount Type DIN rail and panel mount

Agency Approvals cURus (File: E258297 CCN: NRNT2, NRNT8), CSA (168986 Class 3211 07), SCR output only; CE (per IEC 60950 and

61000); RoHS

Specications Legacy Solid-State Relays

SSRDIN

SPST-NO, 10–45 A

Dimensions: in. (mm)

Wiring Diagram Derating Curves

INPUT

OUTPUT

POWER SOURCE

POWER SUPPLY

SSR

LOAD

(–) 24 (–)

(+) 13 (+)

MOSFET ONLY

0.89

(22.6)

0.88

(22.4)

1.79

(45.5)

0.88

(22.4)

Mounting Hole

0.17 (4.3) Dia.

3.44

(87.4)

3.1

(78.7)

2.51

(63.7)

4.2

(106.7)

3.1

(78.7)

0.88

(22.4)

0.44

(11.2)

3.15

(80.0)

3.53

(89.7)

3.15

(80.0)

2.61

(66.2)

Mounting Hole

0.17 (4.3) Dia.

3.8

(97.7)

22 mm 45 mm

INPUT

OUTPUT

INPUT

OUTPUT

0.39

22 mm

a6 mm2

AWG 10

10 mm2

AWG 8

4 mm2

AWG 12

input output

45 mm

input output

Dimensions,

Wiring Diagram,

Derating Curves

Legacy Solid-State Relays

SSRDIN

SPST-NO, 10–45 A

Description

The 6000 Series solid-state relays offer an energy-efficient current switching

alternative to standard electromechanical relays� Advantages include longer life

cycles, less energy consumption, and reduced maintenance costs�

Switching Type Switching

Device (1)

Input Voltage

Range

Output Voltage

Range

Contact

Configuration

Rated Output

Current (A)

Standard Part

Number

DC Switching MOSFET 3�5–32 Vdc 3–200 Vdc SPST-NO

12 6312AXXMDS-DC3

25 6325AXXMDS-DC3

40 6340AXXMDS-DC3

AC Zero Cross

SCR

3–32 Vdc

24–280 Vac SPST-NO

10 6210AXXSZS-DC3

25 6225AXXSZS-DC3

40 6240AXXSZS-DC3

50 6250AXXSZS-DC3

75 6275AXXSZS-DC3

48–480 Vac SPST-NO

25 6425AXXSZS-DC3

40 6440AXXSZS-DC3

50 6450AXXSZS-DC3

75 6475AXXSZS-DC3

90–280 Vac

24–280 Vac SPST-NO

10 6210AXXSZS-AC90

25 6225AXXSZS-AC90

40 6240AXXSZS-AC90

50 6250AXXSZS-AC90

75 6275AXXSZS-AC90

48–480 Vac SPST-NO

10 6410AXXSZS-AC90

25 6425AXXSZS-AC90

40 6440AXXSZS-AC90

50 6450AXXSZS-AC90

75 6475AXXSZS-AC90

TRIAC (2) 3–32 Vdc

24–280 Vac DPST-NO 10 6210BXXTZB-DC3

48–480 Vac SPST-NO 25 6425AXXTZB-DC3

DPST-NO 25 6425BXXTZB-DC3

(1) See page 28 for definitions of the different switching devices.

(2) Blade terminals.

Part Number Explanation

Series

6000

Output Voltage

2 = 24–280 Vac

3 = 3–200 Vdc

4 = 48–530 Vac

Current Rating

10 = 10 A

12 = 12 A

25 = 25 A

40 = 40 A

50 = 50 A

75 = 75 A

Contact

Configuration

AXX = SPST-NO

BXX = DPST-NO

Output Type

M = MOSFET

S = SCR

T = TRIAC

Switching Type

D = DC Switching

Z = AC Zero Cross

Connection Type

B = Blade Terminals

S = Screw Terminals

Input Voltage

AC90 = 90–280 Vac

DC3 = 3–32 Vdc

Feature Benefit

Solid-state circuitry Involves no moving parts

Optically coupled circuit Provides isolation between input and output circuits

Internal snubber Helps protect the relay’s internal circuit from high voltage

transients

Finger protected terminals Help prevent an operator from touching live circuits

6000 Series Relays

Description Legacy Solid-State Relays

6000

SPST-NO, 10–75 A

DPST-NO, 10–25 A

Specifications (UL 508)

Part Number 62••AXXSZS-AC90 64••AXXSZS-AC90 62••AXXSZS-DC3 64••AXXSZS-DC3

Input Characteristics

Control Voltage Range 90–280 Vac (rms) 3–32 Vdc 4–32 Vdc

Maximum Turn-On Voltage 90 Vac (rms) 3 Vdc 4 Vdc

Minimum Turn-Off Voltage 10 Vac (rms) 1 Vdc

Nominal Input Impedance 60 kW N/A (active current limiter)

Typical Input Current 2 mA at 120 V (rms); 4 mA at 240 V (rms) 10 mA at 12 Vdc 15 mA DC

Output Characteristics

Switching Device SCR

Switching Type AC Zero Cross

Contact Configuration SPST-NO

Output Current Range 10–75 A 10–25 A 10–50 A 25–50 A

Output Voltage Range (47–63 Hz) 24–280 Vac (rms) 48–530 Vac (rms) 24–280 Vac (rms) 48–530 Vac (rms)

Transient Overvoltage 600 Vpk 1200 Vpk 600 Vpk 1200 Vpk

Maximum Off-State Leakage Current at Rated Voltage 10 mA (rms) 1 mA (rms)

Minimum Off-State dv/dt at Maximum Rated Voltage 500 V/us

Minimum Load Current 40 mA (rms) 150 mA (rms)

Maximum Surge Current (16�6 ms) 10 A: 120 Apk

25 A: 250 Apk

40/50 A: 625 Apk

75 A: 1000 Apk

10 A: 140 Apk

25 A: 250 Apk

10 A: 120 Apk

25 A: 250 Apk

40/50 A: 625 Apk

25 A: 250 Apk

50 A: 625 Apk

Maximum On-State Voltage Drop at Rated Current 1�6 V (rms) 1�7 V (rms) 1�6 V (rms)

Maximum I²T for Fusing (8�3 ms) 10 A: 60 A²sec

25 A: 260 A²sec

40/50A: 1620 A²sec

75A: 4150 A²sec

10 A: 81 A²sec

25 A: 260 A²sec

10 A: 60 A²sec

25 A: 260 A²sec

40/50 A: 1620 A²sec

25 A: 260 A²sec

50 A: 1620 A²sec

Minimum Power Factor (with Maximum Load) 0�5

General Characteristics

Electrical Life N/A for solid-state relays

Maximum Turn-On Time 10 ms 1/2 Cycle

Maximum Turn-Off Time 40 ms 1/2 Cycle

Thermal Resistance (Junction–Case) 10 A: 1�48 °C/W; 25 A: 1�02 °C/W; 40/50A: 0�63 °C/W; 75 A: 0�31 °C/W

Dielectric Strength, Input/Output/Base (50/60 Hz) 4000 Vac (rms)

Minimum Insulation Resistance (at 500 Vdc) 1E+9 W

Maximum Capacitance (Input/Output) 8 pF

Ambient Operating Temperature Range −40 to +80 °C (derating applies)

Ambient Storage Temperature Range −40 to +125 °C

Weight (typical) 86�5 g (3 oz)

Input Indication Green LED

Encapsulation Thermally conductive epoxy

Terminals Screw and saddle clamps furnished, unmounted

Maximum Torque for Terminal Screws

(screws dry without grease)

Input Terminals: 10 lb-in

Output Terminals: 20 lb-in

Safety Cover Yes

Wire Clamp Plates Yes

Agency Approvals UL Recognized (File: E258297, CCN: NRNT2, NRNT8), CSA (File: 168986, Class: 3211-07), CE,

RoHS

Specications Legacy Solid-State Relays

6000

SPST-NO, 10–75 A

DPST-NO, 10–25 A

Specifications (UL 508)

Part Number 6••••XXTZB-DC3 63••AXXMDS-DC3

Input Characteristics

Control Voltage Range 3–32 Vdc 3�5–32 Vdc

Maximum Turn-On Voltage 3 Vdc 3�5 Vdc

Minimum Turn-Off Voltage 1 Vdc

Nominal Input Impedance Active current limiter 1 kW

Typical Input Current 25 A: 16 mA

10 A: 2 mA

10 mA

Output Characteristics

Switching Device TRIAC MOSFET

Switching Type AC Zero Cross DC Switching

Contact Configuration SPST-NO, DPST-NO SPST-NO

Output Current Range 10–25 A 12–40 A

Output Voltage Range 10 A: 24–280 Vac

25 A: 48–480 Vac

3–200 Vdc

Transient Overvoltage 600 Vpk 200 Vpk

Maximum Off-State Leakage Current at Rated Voltage 10 mA < 1 mA

Minimum Off-State dv/dt at Maximum Rated Voltage 250 V/us N/A

Minimum Load Current–Maintain 80 mA N/A

Maximum Surge Current (16�6 ms) 250 A 12 A: 27 A

25 A: 50 A

40 A: 90 A

Maximum On-State Voltage Drop at Rated Current 1�6 Vac (rms) 2�8 Vdc (at 40 A load)

Maximum I²T for Fusing (8�3 ms) 200 A2s N/A

Minimum Power Factor (with Maximum Load) 0�5 0�95

General Characteristics

Electrical Life N/A for solid-state relays

Maximum Turn-On Time 1/2 cycle 300 us

Maximum Turn-Off Time 1/2 cycle 1 ms

Thermal Resistance (Junction–Case) 1�2 °C/W 1�06 °C/W

Dielectric Strength, Input/Output/Base (50/60 Hz) 4000 Vac (rms) 2500 Vac (rms)

Minimum Insulation Resistance (at 500 Vdc) 1E+9 W

Maximum Capacitance (Input/Output) 10 pF

Ambient Operating Temperature Range −30 to +80 °C (derating applies) −40 to +80 °C (derating applies)

Ambient Storage Temperature Range −40 to +100 °C

Weight (typical) 100 g (3�52 oz) 110 g (3�88 oz)

Input Indication Green LED

Encapsulation Epoxy

Terminals 1/4 in (6�35 mm); 3/16 in (4�74 mm) Input: M3�5

Output: M4 (12 A), M6 (25/40 A)

Maximum Torque for Terminal Screws

(screws dry without grease)

Input Terminals: 10 lb-in

Output Terminals: 20 lb-in

Safety Cover Yes (IP20)

Wire Clamp Plates N/A Yes

Agency Approvals UL Recognized (File: E258297, CCN: NRNT2, NRNT8), CSA (File: 168986, Class: 3211-07), CE,

RoHS

Specications (continued) Legacy Solid-State Relays

6000

SPST-NO, 10–75 A

DPST-NO, 10–25 A

Input

Output

Power Source

Power Supply

SSR

Load

(–) 14 (–)

(+) 23 (+)

MOSFET Only

10 A

Load Current (Arms)

Power Dissipation

Base Plate Temp (°C)

Ambient Temp. (°C)

3681020406080

120

115

110

3°C/W

5°C/W

7°C/W

9°C/W

NO HEATSINK

50 A

Load Current (Arms)

Power Dissipation

Base Plate Temp (°C)

Ambient Temp. (°C)

20 30 40 50 20 40 60 80

120

100

110

NO HEATSINK

1°C/W

2°C/W

0.5°C/W

1.5°C/W

25 A

Load Current (Arms)

Power Dissipation

Base Plate Temp (°C)

Ambient Temp. (°C)

10 15 20 25 20 40 60 80

120

110

100

NO HEATSINK

1°C/W

2°C/W

3°C/W

75 A

Load Current (Arms)

Power Dissipation

Base Plate Temp (°C)

Ambient Temp. (°C)

30 45 60 75 20 40 60 80

120

110

120

100

0.3°C/W0.5°C/W

1°C/W

12 A MOSFET

25/40 A MOSFET

10 20 30 40 50 60 70 80

Ambient Temp. (°C)

Load Current (Arms

)

Mounted on heat sink with

0.5 ºC/W thermal resistance

10 20 30 40 50 60 70 80

Ambient Temp. (°C)

Load Current (Arms)

Mounted on heat sink with

3.2 ºC/W thermal resistance

Mounted on heat sink with

0.5 ºC/W thermal resistance

4.2

(0.163)

Terminal

Input

Output

Min. Max.

3.5

(0.138)

(0.197)

6.35

(0.25)

10 max

0.393

in.

OUTPUT

Cu 75 °C

max. ambient

25 °C

0–50 A 50–125 A

1.4

(35.9)

2.28

(57.91)

1.74

(44.14)

1.7

(43.42)

Blade Terminals

Screw Terminals

INPUT

OUTPUT

INPUT

OUTPUT

1.87

(47.5)

1.74

(44.14)

0.41

(10.5)

0.125

(3.2)

1 (-) 2 (+)

4 (-) 3 (+)

1 (-) 2 (+)

5 (-) 6 (+)

4 (-) 3 (+)

0.192

(4.9) DIA.

Side View

(25 & 40 A MOSFET versions only)

Side View

Dimensions,

Wiring Diagram,

Derating Curves

Legacy Solid-State Relays

6000

SPST-NO, 10–75 A

DPST-NO, 10–25 A

Dimensions: in. (mm)

Wiring Diagram

Derating Curves

Relay Mounting Example

Description

Thermal management is a fundamental consideration in the design and use of solid-

state relays (SSRs) because of the contact dissipation (typically 1 W per ampere)�

It is vital to provide sufficient heat sinking, or the life and switching reliability of the

SSR will be compromised�

The SSR-HS-1 heat sink maximizes heat dissipation and helps ensure reliable

operation when properly selected for the specific application� For ease of

installation, all mounting holes are pre-drilled and tapped�

The SSR-TP-1 simplifies installation with a simple peel-and-stick solution, which

does not require messy thermal grease�

Description Function Weight For Use With Relays Packaging

Minimum

Standard Part

Number

Heat sink Maximizes heat dissipation 558�5 g (19�7 oz) 6000 Series Relays

(rated up to 50 A) 1 SSR-HS-1

Thermal pad

Simplifies installation with a peel-

and-stick solution, which does not

require messy thermal grease

N/A 6000 Series Relays

(rated up to 50 A) 10 SSR-TP-1

SSR-HS-1

SSR-TP-1

Description Legacy Solid-State Relays

Accessories for 6000 Series

Heat Sink, SSR-HS-1

Thermal Pad, SSR-TP-1

Derating Curves (when used with thermal pad and heat sink)

100

Ambient Temperature (°C)

50 6030 70402010 80 90

100

Ambient Temperature (°C)

50 6030 70402010 80 90

200 6040 80

0�2

100 120 140

0�4

0�6

0�8

1�0 0.92

0.69

0.55 0.52

0.51

Dissipation (W)

Thermal Resistance (°C/W)

50 A 6000 Series Relay without Fan

Thermal Resistance vs Power Dissipation

Current Rating (A)

19 14

Load Current vs Ambient Temperature (100% Duty Cycle)

50 A 6000 Series Relay with (70 Cfm) Fan

2.22

(56.3)

1.72

(43.63)

0.88

(22.45)

0.29

(7.35)

Installation:

1� Release the liner on one

side of the thermal pad,

and place underneath the

Class 6 solid-state relay�

2� Release the liner on the

other side of thermal pad

and place the relay and pad

onto heat sink or panel�

SSR-TP-1

Top View

Front View

4.73

(120.14)

1.75

(44.45)

0.13

(3.18)

0.19

(4.95)

3.86

(97.92)

0.34

(8.69)

1.99

(50.63)

0.07

(1.69)

2.65

(67.31)

5.51

(139.95)

Side View

0.24

(6.04)

SSR-HS-1

Dimensions,

Derating Curves

Legacy Solid-State Relays

Accessories for 6000 Series

Heat Sink, SSR-HS-1

Thermal Pad, SSR-TP-1

Dimensions: in. (mm)

Description

The 70S2 Series are miniature solid-state relays ideal for small space applications�

They are available in panel and PCB mount, which increases the level of flexibility

for designers�

Switching

Type

Switching

Device (1)

Input Voltage

Range

Output Voltage

Range

Rated Output

Current (A)

Terminal

Style

Mounting

Style

Standard Part

Number

DC Switching MOSFET 3–15 Vdc 3–60 Vdc

3 Solder PCB Mount 70S2-01-A-03-V

5Blade Panel Mount 70S2-01-A-05-N

Screw Panel Mount 70S2-01-A-05-S

9–30 Vdc 3–60 Vdc 5 Screw Panel Mount 70S2-02-A-05-S

AC Zero Cross TRIAC

3–30 Vdc

24–140 Vac

4 Solder PCB Mount 70S2-04-B-04-F

6Blade Panel Mount 70S2-04-B-06-N

Screw Panel Mount 70S2-04-B-06-S

12 Blade Panel Mount 70S2-04-B-12-N

Screw Panel Mount 70S2-04-B-12-S

25 Screw Panel Mount 70S2-03-B-25-S

24–280 Vac

6Blade Panel Mount 70S2-04-C-06-N

Screw Panel Mount 70S2-04-C-06-S

10 Solder PCB/Panel Mount 70S2-04-C-10-M

Blade Panel Mount 70S2-04-C-12-N

Screw Panel Mount 70S2-04-C-12-S

Screw Panel Mount 70S2-06-C-12-S

25 Screw Panel Mount 70S2-03-C-25-S

3–32 Vdc

24–140 Vac 3 Solder PCB Mount 70S2-04-B-03-V

24–280 Vac 3 Solder PCB Mount 70S2-04-C-03-V

8–50 Vac 3 Solder PCB Mount 70S2-04-D-03-V

6–30 Vdc 24–280 Vac 12 Screw Panel Mount 70S2-05-C-12-S

(1) See page 28 for definitions of the different switching devices.

70S2 (V) Relay 70S2 (F) Relay

70S2 (M) Relay 70S2 (N) Relay

70S2 (S) Relay

Part Number Explanation

Series:

70S2

Package Type:

F = PCB Mount with Solder Terminals

M = PCB/Panel Mount with Solder Terminals

N = Panel Mount with Blade Terminals

S = Panel Mount with Screw Terminals

V = PCB Mount with Solder Terminals

Output Voltage:

A = 3–60 Vdc

B = 24–140 Vac

C = 24–280 Vac

D = 8–50 Vac

Output Current:

03 = 3 A

04 = 4 A

05 = 5 A

06 = 6 A

10 = 10 A

12 = 12 A

25 = 25 A

Input Voltage:

01 = 3–15 Vdc

02 = 9–30 Vdc

03 = 3–30 Vdc

04 = 3–30 Vdc

05 = 6–30 Vdc

06 = 6–30 Vdc

Feature Benefit

Solid-state circuitry Involves no moving parts

Optically coupled circuit Provides isolation between input and output circuits

Internal snubber Helps protect the relay’s internal circuit from high

voltage transients

Small package size Ideal for small spaces

Panel and PCB mounting Increases functionality and ease of use

Description Legacy Solid-State Relays

70S2

SPST-NO, 3–25 A

Specifications (UL 508)

Part Number 70S2-01-A 70S2-02-A 70S2-03-B 70S2-03-C

Input Characteristics

Control Voltage Range 3–15 Vdc 9–30 Vdc 3–30 Vdc

Must Release Voltage 1 Vdc

Typical Input Current 5–40 mA 5–17 mA 7–16 mA 6–10 mA

Maximum Reverse Control Voltage 3 Vdc

Output Characteristics

Switching Device MOSFET TRIAC

Switching Type DC Switching AC Zero Cross

Contact Configuration SPST-NO

Output Voltage Range 3–60 Vdc 24–140 Vac 24–280 Vac

Peak Blocking Voltage 105 Vdc 400 Vac 600 Vac

Maximum Rate of Rise Off-State Voltage (dv/dt) N/A 300 V/us

Output Current Range (rms) 3–5 A 5 A 25 A 25 A

Minimum Load Current–Maintain On N/A 100 mA

Non-Repetitive Surge Current (8�3 ms) 3 A: 5 A (1 s); 5 A: 7 A (1 s) 300 A

Maximum Off-State Leakage Current (rms) 10 mA 6 mA

Typical On-State Voltage Drop (rms) 3 A: 1�2 Vdc; 5 A: 1�85 Vdc 1�7 Vac

Maximum Turn-On Time 75 ms 8�3 ms

Maximum Turn-Off Time 3 A: 500 ms; 5 A: 75 ms 8�3 ms

General Characteristics

Electrical Life N/A for solid-state relays

Thermal Resistance (Junction–Case) 3 A: 0�5 °C/W; 5/25 A: 4 °C/W

Dielectric Strength (Input–Output) 3 A: 4000 Vac; 5 A: 2500 Vac 3000 Vac

Dielectric Strength (Terminals–Chassis) 3 A: 4000 Vac; 5 A: 2500 Vac 3000 Vac

Operating Temperature Range −40 to +100 °C

Storage Temperature Range −40 to +125 °C

Weight F/M: 35 g (1�2 oz);

N/S: 47 g (1�7 oz);

V: 25 g (0�9oz)

Agency Approvals UL Recognized (E258297), CSA (040787), RoHS

Specications Legacy Solid-State Relays

70S2

SPST-NO, 3–25 A

Specifications (UL 508)

Part Number 70S2-04-B 70S2-04-C 70S2-04-D 70S2-05-C 70S2-06-C

Input Characteristics

Control Voltage Range 3 A: 3–32 Vdc; 4/6/10/12 A: 3–30 Vdc 6–30 Vdc 3–30 Vdc

Must Release Voltage 1 Vdc

Typical Input Current 3 A: 1–19 mA; 4/6/10/12 A: 7–16 mA 6–10 mA 1–17 mA

Maximum Reverse Control Voltage 3 Vdc

Output Characteristics

Switching Device TRIAC

Switching Type AC Zero Cross

Contact Configuration SPST-NO

Output Voltage Range 24–140 Vac 24–280 Vac 8–50 Vac 24–280 Vac

Peak Blocking Voltage 400 Vac 600 Vac 200 Vac 600 Vac

Maximum Rate of Rise Off-State Voltage (dv/dt) 300 V/us

Output Current Range (rms) 3–12 A 3–12 A 3 A 12 A

Minimum Load Current–Maintain On 3/4/6 A: 75 mA; 10/12 A: 100 mA

Non-Repetitive Surge Current (8�3 ms) 3/4/6 A: 60 A; 10/12 A: 150 A

Maximum Off-State Leakage Current (rms) 6 mA 10 mA 6 mA

Typical On-State Voltage Drop (rms) 1�6 Vac

Maximum Turn-On Time 8�3 ms

Maximum Turn-Off Time 8�3 ms

General Characteristics

Electrical Life N/A for solid-state relays

Thermal Resistance (Junction–Case) 3 A: 0�5 °C/W ; 4/6/10/12 A: 4 °C/W 2�4 °C/W

Dielectric Strength (Input–Output) 3 A: 4000 Vac; 4/6/10/12 A: 3000 Vac

Dielectric Strength (Terminals–Chassis) 3 A: 4000 Vac; 4/6/10/12 A: 3000 Vac

Operating Temperature Range −40 to +100 °C (derating applies)

Storage Temperature Range −40 to +125 °C

Weight F/M: 35 g (1�2 oz):

N/S: 47 g (1�7 oz);

V: 25 g (0�9 oz);

Agency Approvals UL Recognized (E258297); CSA (040787); RoHS

Specications (continued) Legacy Solid-State Relays

70S2

SPST-NO, 3–25 A

Dimensions: in. (mm)

0.032

(0.8)

0.02

(0.5)

Output

Input

0.2

(4.4)

1.2

(31.2)

1.9

(47.5)

2.2

(55.9)

0.4

(10.2)

1.0

(26.2)

0.9 max.

(22.9)

0.5

(12.7)

0.9

(22.9)

0.187

(4.75)

0.25

(6.5)

0.2

(5.1)

1.2

(31.2)

0.4

(10.2)

0.3

(7.6)

0.6

(15.2)

0.5

(11.4)

0.3

(7.6)

0.2

(4.7)

1.0

(26.2)

0.8

(20.7)

1.2

(31.7)

0.03 (0.76)

70S2 (F) 70S2 (M)

70S2 (N) 70S2 (S)

0.2

(4.4)

1.2

(31.2)

1.9

(47.5)

2.2

(55.9)

1.0

(26.2)

0.9 max.

(22.9)

0.4

(10.2)

0.6

(15.2) 0.2

(5.1)

0.3

(7.6)

0.5

(11.4)

0.3

(7.6)

0.3

(6.4)

Input

Output

Input

Output

0.03 (0.76)

0.8

(19.1)

0.9

(22.9)

0.4

(10.2)

0.6

(15.3) 0.2

(4.5)

2.2

(55.9)

1.9

(47.5)

1.2

(31.2)

1.0

(26.2)

Output

Input

(-)

(+)

(-)

(+)

(-)

(+)

(-)

(+)

Input Input

Input

Output Output

Output

Legacy Solid-State Relays

70S2

SPST-NO, 3–25 A

Dimensions

Wiring Diagram

Input

Output

Power Source

Power Supply

SSR

Load

(–)(–)

(+)(+)

MOSFET ONLY

Derating Curves

1.7

(43.2)

1.02

(26.0)

0.9

(22.9)

1.1

(27.9)

0.2

(5.1)

0.3

(7.6)

0.4

(10.2)

0.16

(4.1)

0.4

(10.2)

0.04 dia.

(1.0)

70S2 (V)

OutputInput

– + – +

Dimensions: in. (mm)

Load Current vs Ambient Temperature (100% Duty Cycle)

30 50 70

20 40 60 80

Load Current in Amperes

Max. Ambient Temperature in °C

10, 12, and 25 A

30 50 70

20 40 60 80

4 and 6 A

Load Current in Amperes

Max. Ambient Temperature in °C

30 50 70

20 40 60 80

3 and 5 A

Load Current in Amperes

Max. Ambient Temperature in °C

Legacy Solid-State Relays

70S2

SPST-NO, 3–25 A

Dimensions (continued),

Wiring Diagram,

Derating Curves

EMR vs. SSR Technology

Armature

Mechanical

Contacts

Coil

Magnetic

Coupling

EMR

Optical

Coupling

Current

Limiter

LED

Photodetector

Snubber

Trigger

Output

Device

(SSR)

SSR

Application Data Legacy Solid-State Relays

Definition

A solid-state relay (SSR) can perform many tasks that an electromechanical relay

(EMR) can perform� The SSR differs in that it has no moving mechanical parts� It is

essentially an electronic device that relies on the electrical and optical properties of

semiconductors to achieve its isolation and switching function�

Principle of Operation

SSRs are similar to electromechanical relays, in that both use a control circuit and

a separate circuit for switching the load� When voltage is applied to the input of the

SSR, the relay is energized by a light emitting diode� The light from the diode is

beamed into a light-sensitive semiconductor, which conditions the control circuit to

turn on the output solid-state switch� In the case of zero-voltage crossover relays, the

output solid-state switch is turned on at the zero crossing of AC voltage� Removal of

input power disables the control circuit, and the solid-state switch also turns off when

the load current passes through the zero point of its cycle� Zero cross only applies to

AC switching circuits� DC switching circuits operate at an instant on/off rate�

Advantages

When used correctly in the intended application, the SSR provides many of the

characteristics that are often difficult to find in the EMR� A high degree of reliability,

long service life, significantly reduced electromagnetic interference, fast response,

and high vibration resistance are significant benefits of the SSR� The SSR has no

moving parts to wear out, or arcing contacts to deteriorate, which are often the

primary cause of failure with an EMR�

• Long life (reliability) > 1E+9 operations

• Zero voltage turn-on, low EMI/RFI

• Resistance to shock and vibration

• Random turn-on, proportional control

• No contact bounce

• Arc-less switching

• No acoustical noise

• TTL compatibility

• Fast response

• No moving parts

Applications

Since its introduction, SSR technology has gained acceptance in many applications

that had previously been the sole domain of the EMR or contactor� The major

growth areas have come from industrial process control applications—particularly

heat/cool temperature control, motors, lamps, solenoids, valves, and transformers�

The list of applications for the SSR is almost limitless�

Oil and Gas

Burner assemblies, chemical injection systems,

extraction machines, refining machines,

solenoid control

Electronic Appliances

Domestic appliances, cooking appliances,

heating elements, audio equipment

Industrial Automation

Automotive assembly plants, conveyance,

motor control

Industrial Appliances

Industrial cleaning equipment, commercial

coffee machines, commercial/industrial

cooking equipment

Packaging

Conveyor motors, heaters, product/shrink wrap,

solenoid control

High Reliability

Medical equipment, elevators and escalators,

automatic door operation (low switching noise,

low electromagnetic interference)

HVAC and Refrigeration

Anti-condensation equipment, compressor

control, blower control, motorized duct/vent

control

Lighting Control

Traffic signal systems, highway information

systems, theatrical lighting

Food and Beverage

Commercial/industrial cooking equipment,

filtration systems, bottling, chillers,

convection ovens

Industrial Heater Control

Plastics industry: drying, extrusion/thermoforming,

heat tracing, solder wave/reflow systems, car

wash pumps and dryers

Mining

Blower control, motorized duct/vent control,

drill control, explosive control, mineral extractors

Typical Examples of SSR Applications

Application Data (continued) Legacy Solid-State Relays

Using A Temperature Derating Curve

In the example below, a temperature derating curve for a 50 A, Class 6 solid-state

relay is used to determine the maximum allowable load current at an ambient

temperature of 70 °C� A heat sink with a 2 °C/W temperature coefficient is used in

the application�

From the right half of the graphic, the point at which the heat sink coefficient curve

crosses 70 °C is translated to the left half of the graphic until it intersects the

power dissipation vs load current curve of the 50 A, Class 6 relay as shown in the

illustration below:

The result is that a maximum load current of 20 Arms is recommended when using

a 50 A, Class 6000 relay in an ambient temperature of 70 °C when using a heat

sink with a 2 °C/W temperature coefficient�

Application Data (continued) Legacy Solid-State Relays

Load Considerations

After improper heat sinking, the next most significant cause of application problems

with SSRs stems from the operating conditions that specific loads impose on an

SSR� Carefully consider the surge characteristics of the load when designing an

SSR as a switching solution�

• Resistive Loads

A load with a constant value of resistance is the simplest application of an SSR�

Proper thermal consideration, along with attention to the steady-state current

ratings, is important for reliable operation�

• DC Loads

DC loads are inductive loads� Place a diode across the load to absorb surges

during turn-off�

• Lamp Loads

Incandescent lamp loads, though basically resistive, require special consideration�

Because the resistance of the cold filament is about 5–10% of the heated value,

a large inrush current can occur� It is essential to verify that this inrush current is

within the surge specifications of the SSR� Also ensure that the lamp rating of the

SSR is not exceeded� This UL rating is based on the inrush of a typical lamp� Due

to the unusually low filament resistance at the time of turn-on, a zero voltage turn-

on characteristic is particularly desirable with incandescent lamps�

• Capacitive Loads

These types of loads can be difficult because of their initial appearance as short

circuits� High surge currents can occur while charging, limited only by circuit

resistance� Use caution with low impedance capacitive loads to verify that the dl/dt

capabilities are not exceeded� Zero voltage turn-on is a particularly valuable means

of limiting dl/dt with capacitive loads�

• Motors and Solenoids

Motor and solenoid loads require special attention for reliable SSR functionality�

Solenoids have high initial surge currents because their stationary impedance is

very low� Motors can also have severe inrush currents during starting and can

impose unusually high voltages during turn-off� As a motor’s rotor rotates, it creates

a back-EMF (electromotive force) that reduces the flow of current� This back-EMF

can add to the applied line voltage and create an overvoltage condition during turn-

off� Likewise, consideration must be given to mechanical loads having high starting

torque or inertia, such as fans and flywheels, to verify that the inrush currents are

within the surge capabilities of the SSR� Use a current shunt and oscilloscope to

examine the duration of the inrush current�

Application Data (continued) Legacy Solid-State Relays

Transformers

When switching transformers, consider the characteristics of the secondary load�

These characteristics reflect the effective load on the SSR� In addition, voltage

transients from secondary load circuits can act as transformers and impose on the

SSR�

Transformers present a special challenge: Depending on the transformer flux state

at turn-off, the transformer may saturate during the first half-cycle when voltage is

next applied� This saturation can impose a very large current (10–100 times the rated

typical current) on the SSR, which far exceeds its half-cycle surge rating� SSRs with

random turn-on may have a better chance of survival than a zero-cross turn-on device,

since they commonly require the transformer to support only a portion of the first half-

cycle of the voltage� On the other hand, a random turn-on device will frequently close

at the zero-cross point, and then the SSR must sustain the worst-case saturation

current� A zero-cross turn-on device has the advantage that it turns on in a known

mode and will immediately demonstrate the worst case condition� The use of a current

shunt and an oscilloscope is recommended to verify that the half-cycle surge capability

is not exceeded�

As a general rule, when applying an SSR to a transformer load, select an SSR having

a half-cycle current surge rating greater than the following:

(maximum applied line voltage) ÷ (transformer primary resistance)

The primary resistance is usually easy to measure and can be relied on as a minimum

impedance limiting the first half-cycle of inrush current� The presence of some residual

flux, plus the saturated reactance of the primary, will then further limit, in the worst

case, the half-cycle surge safely within the surge rating of the SSR�

Switching Devices

The power family of semiconductors consists of several switching devices� The

most widely used of this family are metal-oxide semiconductor field-effect transistors

(MOSFETs), silicon controlled rectifiers (SCRs), TRIAC, and Alternistor TRIAC� In

many applications, these devices perform key functions, so you must understand

their advantages as well as their shortcomings to properly design a reliable system�

Applied correctly, SSRs are an asset in meeting environmental, speed, and reliability

specifications which their electromechanical counterparts could not fulfill�

• MOSFET

A power MOSFET is a specific type of metal-oxide semiconductor field-effect transistor

(MOSFET) designed to handle large amounts of power� It is a vertical-structured

transistor capable of sustaining high blocking voltage and high current� Power

MOSFETs are used in DC switching applications� Care must be taken to ensure proper

polarity for all DC ports� Failure to do so can lead to permanent device damage�

• TRIAC

A TRIAC is an electronic component approximately equivalent to two silicon-controlled

rectifiers joined in inverse parallel (paralleled but with the polarity reversed) and with

their gates connected together� This results in a bidirectional electronic switch that can

conduct AC current only� The TRIAC is ideal for switching non-reactive loads�

• Alternistor TRIAC

The Alternistor is specifically designed for applications that switch highly inductive

AC loads� A special chip offers performance similar to two SCRs wired in inverse

parallel (back-to-back), providing better turn-off behavior than a standard TRIAC� The

Alternistor TRIAC is an economical solution, ideal for switching inductive AC loads�

• SCR

The SCR (silicon-controlled rectifier) acts as a switch, conducting when its gate

receives a current pulse, and continuing to conduct as long as it is forward biased�

The SCR is ideal for switching all types of AC loads�

Application Data (continued) Legacy Solid-State Relays

Legacy Schneider Electric Solid-State Relays

Legacy Schneider Electric solid-state relays offer a number of advantages over

electromechanical relays, including longer life cycles, less energy consumption, and

reduced maintenance costs, depending on the application�

Selecting a Solid-State Relay

The list below is an example of the specifications to look for when selecting a solid-

state relay�

Use the catalog specifications or online parametric search to determine a

recommended part number (www.serelays.com)�

Selection Guide Legacy Solid-State Relays

Class I, Division 2 certification (y/n):

Input voltage:

Output voltage:

Load rating:

Contact configuration:

Ambient temperature:

In-rush currents:

Mounting style:

_________________

More About Class I, Division 2

Certified Products

Class I, Division 2 is a classification which was

developed by the American National Standards

Institute (ANSI) to provide requirements for the

design and construction of electrical equipment

and parts that will be used in hazardous

locations� Certified components, when used properly, are not capable of

igniting the surrounding atmosphere�

Class I, Division 2 components may be required in environments which may

contain specific flammable gases, combustible dust, or fibers that can ignite�

The 861H SSR carries a Class I, Division 2 (Categories A, B, C, D and

Temperature code T5) approval from Underwriters Laboratories�

Website Guide Legacy Solid-State Relays

The Schneider Electric Relays website (www.serelays.com) allows users to easily

find the proper relay to fit design requirements and to help simplify and shorten

workflow�

Easily find the proper relay to fit design

requirements

■ Online Catalog

Find the right product by choosing specifications, compare products side-by-

side, and view technical specifications, 2D and 3D drawings, and associated

accessories�

■ Cross Reference Search

Search our comprehensive database to identify products by manufacturer and

part number, and link directly to part specifications�

■ 3D CAD Library

View, email, download, or insert a file directly into your open CAD software pane,

and select from 18 different file formats�

■ Order Free Samples

Schneider Electric offers free samples as a courtesy to individuals and

companies evaluating our products in their designs and applications� Sample

orders are subject to approval�

Simplify and shorten workflow

■ Interactive Tools

View interactive demonstrations such as our Time Delay Relay Interactive Demo

(left) which visually demonstrates the ten different timing functions offered on

Schneider Electric time delay relays�

■ Distributor Inventory Search

Search authorized distributors’ current Schneider Electric inventory and buy

online� (Buying online is not available for all distributors�)

Time Delay Relay Demo

3D Models

70S2 3, 19–23

70S2-01-A 20

70S2-01-A-03-V 19

70S2-01-A-05-N 19

70S2-01-A-05-S 19

70S2-02-A 20

70S2-02-A-05-S 19

70S2-03-B 20

70S2-03-B-25-S 19

70S2-03-C 20

70S2-03-C-25-S 19

70S2-04-B 21

70S2-04-B-03-V 19

70S2-04-B-04-F 19

70S2-04-B-06-N 19

70S2-04-B-06-S 19

70S2-04-B-12-N 19

70S2-04-B-12-S 19

70S2-04-C 21

70S2-04-C-03-V 19

70S2-04-C-06-N 19

70S2-04-C-06-S 19

70S2-04-C-10-M 19

70S2-04-C-12-N 19

70S2-04-C-12-S 19

70S2-04-D 21

70S2-04-D-03-V 19

70S2-05-C 21

70S2-05-C-12-S 19

70S2-06-C 21

70S2-06-C-12-S 19

861 3, 4–6

861H 3, 7–9

861HSSR 8

861HSSR115-DD 7

861HSSR208-DD 7

861HSSR210-AC-1 7

861HSSR210-AC-2 7

861HSSR210-DC-1 7

861HSSR210-DC-2 7

861HSSR210-DC-4 7

861HSSR410-AC-1 7

861HSSR410-AC-2 7

861HSSR410-DC-1 7

861HSSR410-DC-2 7

861HSSR610-AC-1 7

861HSSR610-AC-2 7

861HSSR610-DC-1 7

861HSSR610-DC-2 7

861HSSRA 8

861HSSRA208-AC-1 7

861HSSRA208-AC-2 7

861HSSRA208-DC-1 7

861HSSRA208-DC-2 7

861HSSRA208-DC-4 7

861HSSRA408-AC-1 7

861HSSRA408-AC-2 7

861HSSRA408-DC-1 7

861HSSRA408-DC-2 7

861SSR 5, 8

861SSR115-DD 4

861SSR208-DD 4

861SSR210-AC-1 4

861SSR210-AC-2 4

861SSR210-DC-1 4

861SSR210-DC-2 4

861SSR210-DC-4 4

861SSR410-AC-1 4

861SSR410-AC-2 4

861SSR410-DC-1 4

861SSR410-DC-2 4

861SSR610-AC-1 4

861SSR610-AC-2 4

861SSR610-DC-1 4

861SSR610-DC-2 4

861SSRA 5

861SSRA208-AC-1 4

861SSRA208-AC-2 4

861SSRA208-DC-1 4

861SSRA208-DC-2 4

861SSRA208-DC-4 4

861SSRA408-AC-1 4

861SSRA408-AC-2 4

861SSRA408-DC-1 4

861SSRA408-DC-2 4

6000 3, 13–18

6210AXXSZS-AC90 13, 14

6210AXXSZS-DC3 13, 14

6210BXXTZB-DC3 13, 15

6225AXXSZS-AC90 13, 14

6225AXXSZS-DC3 13, 14

6240AXXSZS-AC90 13, 14

6240AXXSZS-DC3 13, 14

6250AXXSZS-AC90 13, 14

6250AXXSZS-DC3 13, 14

6275AXXSZS-AC90 13, 14

6275AXXSZS-DC3 13, 14

6312AXXMDS-DC3 13, 15

6325AXXMDS-DC3 13, 15

6340AXXMDS-DC3 13, 15

6410AXXSZS-AC90 13, 14

6425AXXSZS-AC90 13, 14

6425AXXSZS-DC3 13, 14

6425AXXTZB-DC3 13, 15

6425BXXTZB-DC3 13, 15

6440AXXSZS-AC90 13, 14

6440AXXSZS-DC3 13, 14

6450AXXSZS-AC90 13, 14

6450AXXSZS-DC3 13, 14

6475AXXSZS-AC90 13, 14

6475AXXSZS-DC3 13, 14

SSR2 11

SSR3 11

SSR6 11

SSR210DIN-AC22 10

SSR210DIN-DC22 10

SSR220DIN-AC22 10

SSR220DIN-DC22 10

SSR230DIN-AC22 10

SSR230DIN-DC22 10

SSR245DIN-AC45 10

SSR245DIN-DC45 10

SSR310DIN-DC22 10

SSR320DIN-DC22 10

SSR330DIN-DC22 10

SSR610DIN-AC22 10

SSR610DIN-DC22 10

SSR620DIN-AC22 10

SSR620DIN-DC22 10

SSR630DIN-AC22 10

SSR630DIN-DC22 10

SSR645DIN-AC45 10

SSR645DIN-DC45 10

SSR665DIN-AC45 10

SSRDIN 3, 10–12

SSR-HS-1 17, 18

SSR-TP-1 17, 18

Catalog Number Index Legacy Solid-State Relays

The information and dimensions in this catalog are provided for the convenience of our customers�

While this information is believed to be accurate, Schneider Electric reserves the right to make

updates and changes without prior notication and assumes no liability for any errors or omissions.

Schneider Electric is a trademark and the property of Schneider Electric SE, its subsidiaries and

af liated companies. All other trademarks are the proper ty of their respective owners.

8501CT1002R02/17

Replaces 8501CT1002R07/11 dated 10/2011

06/2017

Schneider Electric USA, Inc. www�serelays�com

200 N� Martingale Road

Schaumburg, IL 60173

Tel: 847- 441-25 40