ABB Sentry SSR32 Product Manual 40 Pages
ABB Sentry SSR32
The ABB Sentry SSR32 is a safety relay that helps improve the safety of machines and processes. It is designed to be easy to install and use, and it offers a range of features that make it suitable for a variety of applications.
The SSR32 has 2 channels, each of which can be configured to monitor a variety of safety devices, such as E-stops, light curtains, and safety mats. The relay also has 4 output contacts, which can be used to control safety devices such as contactors, solenoid valves, and indicator lights.
The SSR32 offers a range of advanced features, including:
- Automatic and manual reset
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SAFETY PRODUCTS
Safety relays
Sentry SSR32
Product manual
2TLC010067M0201 Rev.G
ORIGINAL INSTRUCTIONS
Read and understand this document
Please read and understand this document before using the products. Please consult your ABB Electrification
Sweden representative if you have any questions or comments.
Suitability for use
ABB shall not be responsible for conformity with any standards, codes, or regulations that apply to the combination of products in the customer’s application or use of the product. Third party certificates for the products are available at https://new.abb.com/low- voltage/products/safety-products. This information by itself is not sufficient for a complete determination of the suitability of the products in combination with the end product, machine, system, or other application or use.
The following are some examples of applications for which particular attention must be given. This is not intended to be an exhaustive list of all possible uses of the products, nor is it intended to imply that the uses listed may be suitable for the products:
• Outdoor use uses involving potential chemical contamination or electrical interference, or conditions or uses not described in this document.
• Nuclear energy control systems, combustion systems, railroad systems, aviation systems, medical equipment, amusement machines, vehicles, and installations subject to separate industry or government regulations.
• Systems, machines, and equipment that could present a risk to life or property.
Please know and observe all prohibitions of use applicable to the products.
NEVER USE THE PRODUCTS FOR AN APPLICATION INVOLVING SERIOUS RISK TO LIFE OR PROPERTY WITHOUT
ENSURING THAT THE SYSTEM AS A WHOLE HAS BEEN DESIGNED TO ADDRESS THE RISKS, AND THAT THE ABB
PRODUCT IS PROPERLY RATED AND INSTALLED FOR THE INTENDED USE WITHIN THE OVERALL EQUIPMENT
OR SYSTEM.
Descriptions and examples show how the product works and can be used. It does not mean that it fulfills the requirements for all types of machines and processes. The buyer/user is responsible for installing and using the product according to applicable standards and regulations. We reserve the right to make changes to the product and the documentation without prior notice
2TLC010067M0201 Rev.G
Table of Contents
2TLC010067M0201 Rev.G
2TLC010067M0201 Rev.G
1.2
1.3
1
1.1
1.4
Introduction
Purpose of document
The purpose of this document is to describe the functions and to provide instructions for installation, operation, maintenance and troubleshooting of the product.
Intended audience
This document is intended for authorized personnel.
Reading prerequisites
It is assumed that the reader of this document has:
• Basic knowledge of ABB safety products.
• Knowledge of machine safety.
• Knowledge of safety devices.
Special notes
Pay attention to special notes in this document:
Warning!
Risk of severe personal injury!
An instruction or procedure which, if not carried out correctly, may result in injury to the technician or other personnel.
Caution!
Note!
Risk of damage to the equipment!
An instruction or procedure which, if not carried out correctly, may damage the equipment.
Important or explanatory information.
2TLC010067M0201 Rev.G
5
6
2
2.1
2.2
Safety
Intended use
The intended use of the Sentry safety relay is to monitor the state of a safety device and depending on the state, activate or inactivate the outputs within the system response time.
The protective function of the safety device is only safe if the safety relay is correctly connected and configured. The safety relay is not by itself a complete protective device.
• Use the safety relay as a safety monitoring device.
• Use the safety relay as expansion device of safe outputs
• The safety relay is not intended for use in explosive or easily flammable adjacent air.
• Other use than defined as correct is considered as incorrect use.
Safety precautions
Warning!
The safety precautions must be followed during installation, operation, maintenance and troubleshooting.
Warning!
The safety functions must be tested at start up or at replacement before the system is put in operation.
Installation shall be conducted by authorized personnel following the Safety regulations, standards and local legal regulations. Carefully read through the entire original instruction before using the device.
Make sure that these instructions are included together with the documentation of the system. Make sure that these instructions always are available for users of the system.
The safety relay must be selected so its safety related capacity meets or exceed the performance level (PL) or safety integrity level (SIL) that has been estimated in the risk analysis. The safety relay must only be used after it has been selected according to related instructions, relevant standards, rules and regulations for protection and safety at work.
The entire dangerous zone must be visible from the position where the reset button is installed. The reset button must be positioned out of reach from the dangerous zone.
The safety functions must be tested after installation or replacement of components or cables. The safety relay must be exchanged within 20 years.
Failure to comply with instructions, operation that is not in accordance with the use prescribed in the instructions, improper installation or handling can affect the safety of people and the system. Failure to comply with the instructions or standards, excludes any liability.
2TLC010067M0201 Rev.G
3
3.1
3.2
Product description
Sentry safety relays
Sentry safety relays provide safe stop and start of monitored devices to prevent errors. The following safety device types are applicable for the Sentry safety relays:
• 1 channel safety device.
• 2 channel safety device with equivalent contacts.
• 2 channel safety device with antivalent contacts.
• Expansion of safety modules.
• Pressure sensitive safety device (short-circuit detection).
• Two-hand safety device.
• OSSD safety device.
Examples of devices for connection to the Sentry safety relays:
• Light beams.
• Light curtains.
• Three position safety device.
• Safety interlock switches.
• Emergency stop buttons.
• Bumpers, contact edges and safety mats.
Sentry product range
The Sentry product range has the following groups of safety relays:
BSR (Basic function Safety Relay) group
The BSR group include BSR10, BSR11 and BSR23. The safety relays have basic monitoring functions for 1- and 2-channel safety devices. The safety relay can be used as an expansion of other safety modules.
SSR (Single function Safety Relay) group
The SSR group includes SSR10, SSR10M, SSR20, SSR20M, SSR32 and SSR42. The safety relays have single safety device functions and limited configuration possibilities for automatic and manual reset. SSR32 and SSR42 have a timer function.
TSR (Timer function Safety Relay) group
The TSR group includes TSR10, TSR20 and TSR20M. The safety relays have timer functions and configuration possibilities. TSR10 is fully configurable with preset selection possibilities and password protection.
USR (Universal function Safety Relay) group
The USR group include USR10 and USR22. The safety relays have multiple functionalities for monitoring safety device including timer functions. The USR group is fully configurable with preset selection possibilities and password protection.
2TLC010067M0201 Rev.G
7
8
3.3
C
D
E
F
Safety relay overview
A
B
N
G
H
J
M
K
L
A.
Connection block, top side back
B.
Connection block, top side front
C.
Product name.
D.
Print for connection block, top side back
E.
Print for connection block, top side front
F.
Relay output configuration
G.
Print for connection block, bottom side front
H.
Print for connection block, bottom side back
J.
LEDs for status indication
K.
Switch for settings
L.
Connection block, bottom side front.
M.
Connection block, bottom side back
N.
DIN rail latching device
2TLC010067M0201 Rev.G
4
4.1
4.2
Installation
Installing precautions
Follow the instructions carefully to avoid personal injury or damage to the device.
The safety relay shall be attached on a 35 mm DIN rail in a lockable enclosure that has at least protection class IP54. Sentry safety relays shall be installed in an upright position.
Make sure there is at least 10 mm distance between the safety relay and other non-Sentry units to prevent uncontrolled heating. Make sure there is at least 50 mm distance above and below the safety relay and other units for correct air flow in the venting holes of the safety relay.
Caution!
Sentry safety relays can be installed without distance to other Sentry safety relays, with exception of BSR23. Make sure there is at least 5 mm distance between BSR23 and other Sentry safety relays
Attaching the safety relay on the DIN rail
1.
Make sure that the DIN rail latching is reset.
2. Hang the top rear side of the safety relay on the DIN rail.
3. Push the bottom rear side of the safety relay on the DIN rail until a click is heard.
2TLC010067M0201 Rev.G
9
4.3
Removing the safety relay from the DIN rail
4.4
1.
Use a screwdriver to unlock the DIN relay latching device from the DIN rail.
2. Pull the bottom rear side of the safety relay away from the DIN rail until a click is heard.
3. Lift the top rear side of the safety relay away from the DIN rail.
Resetting the latching device
10
• Pull the bottom side of the DIN rail latching device from the safety relay and push it upwards to release it to its original position.
2TLC010067M0201 Rev.G
4.5
4.6
4.7
Connecting precautions
Warning!
Disconnect the power supply before attaching or removing the connection blocks.
Make sure that connection blocks and wires are clearly marked for correct connections. Use applicable requirements in IEC 60204‑1 for wire connections. Make sure that the wires are fitted with crimp terminals or ferrules before connection, unless solid copper conductors are used.
For connections of relay output contacts: Make sure that all power supplies or signal sources are connected to one side of the safety relay and that all power consumers or signal receivers are connected to the opposite side of the safety relay.
Make sure to use at least one of the following methods to ensure correct wire protection against short circuits for the safety relay outputs:
• The wires are permanently connected and protected against external damage, for example by wire ducts or other types of covers for protection.
• Use of separate multi-core wires.
• Use of cables with wires being individually shielded with earth connection.
The safety requirement is that fuses shall be used on the relay outputs.
Connection blocks
The connection blocks on the safety relay are detachable to simplify installation and replacement. The safety relay can be ordered with two different types of connection blocks, screw compression type or push-in type.
Coding the connection blocks
The coding kit is used to make each connection point individual to avoid faulty connection.
Place the coding parts in an specific order on the connection block and match these with the pin header.
• The risk assessment must include the risk of mistakes when using the connection blocks without coding.
• If coding is used, a test of the outcome of the coding against the identified risks must be done.
2TLC010067M0201 Rev.G
11
4.8
4.9
4.10
4.11
Connecting to a screw compression type terminal
Use a screwdriver with slot size 3,5 mm.
1.
Open the terminal before inserting a wire.
2. Insert the wire in the correct terminal.
3. Close the terminal and secure the wire with torque 0,7 Nm ±0,1.
Connecting to a push-in type terminal
1.
Press the actuating lever.
2. Insert the wire in the correct terminal.
3. Release the actuating lever.
Wire properties
Wire area, screw compression type connection block
Wire with crimp sleeve, ferrule or single solid conductor. Two wires with the same area must be used. Wire strip length 6,5 mm ±0,5.
Minimum 1x24 AWG and Maximum 1x12 AWG
Minimum 1x0,2 mm 2 and Maximum 1x3,3 mm 2
Minimum 2x24 AWG and Maximum 2x16 AWG
Minimum 2x0,2 mm 2 and Maximum 2x1,5 mm 2
Wire area, push-in type connection block
Wire with crimp sleeve, ferrule or single solid conductor. Two wires with the same area must be used. Wire strip length 6,5 mm ±0,5.
Minimum 1x24 AWG and Maximum 1x14 AWG
Minimum 1x0,2 mm 2 and Maximum 1x2,5 mm 2
Minimum 2x24 AWG and Maximum 2x16 AWG
Minimum 2x0,25 mm 2 and Maximum 2x1,5 mm 2
Wire length
The maximum wire length depends on the total resistance and total capacitance in the transmitter loop for each channel. The model used to determine the maximum allowed wire resistance and wire capacitance between the transmitter port (T) and the receiver port (R) is shown in the figure.
Rext is the total wire resistance, and Cext is the total wire capacitance (to ground, or shield).
The switch symbolizes the sensor, placed halfway in the T-R loop (as indicated by having half of Rext/Cext on each side). Iext is the current drawn by the sensor for its operation and/or other external loads. The maximum allowed wire resistance, Rext, vs. the externally drawn current Iext is listed in the table.
12 2TLC010067M0201 Rev.G
The maximal wire length is limited by the resistive loading to the maximum wire resistance divided with the wire resistance per length of the unit.
The maximal wire length is limited by capacitive loading to (100nF - external capacitive loading) divided with the wire capacitance per length of unit.
R ext
is resistance for the complete wire.
I ext
0 mA
5 mA
10 mA
15 mA
20 mA
25 mA
30mA
Maximum wire resistance R
850 Ω
600 Ω
460 Ω
370 Ω
300 Ω
260 Ω
220 Ω ext
(T–R)
2TLC010067M0201 Rev.G
13
5
5.1
5.2
5.3
14
Functions
Function overview
Power supply, 24 VDC
Relay output
• 2 NO + 2 NO
Safety device interface
• One channel connection
• Two channels with equivalent contacts
• Two channels OSSD
Test, start and reset interface
• Automatic reset
• Manual reset
• Multi reset
Timer function
• Off-delay 0.5 s
Power supply
24 VDC
The safety relay and the safety devices are supplied with 24 VDC and common shared ground.
Warning!
The power supply must be of type PELV/SELV
Relay outputs
The safety relay output contacts are opened or closed based on the signals from the safety device. Each safety relay output has two contacts in series, one contact for each internal output relay.
43
A
B
A
4 44
A.
Connectors: Terminals in connection blocks.
B.
NO contact: The NO contact is open when the relay is inactivated and closed when the relay is activated.
Caution!
A relay output is in safe state when the contact is open.
Note!
The NO contact is open at all types of internal failures and is a safe output.
2TLC010067M0201 Rev.G
5.4
5.5
5.6
5.7
5.8
Note!
Arc suppression for inductive loads is recommended to get a longer lifetime for the relay contacts.
Safety device interface
Sentry safety relays have interfaces with inputs/outputs (I/O:s) for connections of safety devices.
Inputs/Outputs
T1/T2 detect short circuits to +24 VDC or other OSSD signals and are designed for supplying signals to different types of safety devices.
Note!
It is not necessary to connect T1/T2 to the safety devices. The safety level may be reduced if T1/T2 are not used. Possible errors in the connected safety devices and wires may not be identified.
R1/R2 receives the signals from the safety devices.
Warning!
The safety relays and the safety devices supplied with 24 VDC must be connected to PELV/SELV power supply.
Test, start and reset interface
The safety relay has an interface for test, start and reset functions. The safety relay enters inactive mode when at least one input is not accepted. The safety relay enters active mode when the inputs are accepted, and a reset is performed.
Automatic reset
When at least one input signal is not accepted, the safety relay enters inactivated mode. The
MODE LED light blue and at least one of CH1/CH2 LED will turn OFF. When the safety input signals are accepted and the test (X1/X4) circuit is closed, an automatic reset is made. The relay activates and the three LEDs will light green.
Manual reset
Warning!
Always use the manual reset function when a reset button is installed.
When at least one input safety signal is not accepted, the safety relay enters to inactive mode.
The MODE LED is blue and at least one of the CH1/CH2 LEDs will turn OFF and the reset button light is static on.
When the safety input safety signals are accepted, the CH1 LED and the CH2 LED are green and the MODE LED is blue. The reset button light is flashing to indicate that a reset is possible. To reset the safety circuit, press the reset button for 0.05 s to 2 s. The relay goes to active mode and the button light turns off when the button is released (falling edge).
A reset button light test can be executed by pressing the reset button in active mode.
Multi-reset
It is possible to use one reset button to reset up to ten safety relays while maintaining the reset button light function.
2TLC010067M0201 Rev.G
15
6
6.1
Connections
Connection groups
T
R
The connections are divided into groups.
A Power supply
Signal to safety device
Signal from safety device
X Test/reset/start/indication
13, 23, 33, 43 Safety output, NO
14, 24, 34, 44 Safety output, NO
16 2TLC010067M0201 Rev.G
7
7.1
Application connections
A)
Connection examples
B)
CH1
SENTRY SSR32
CH2
CH1
MODE
CH2
M
A
D)
CH1 CH2
C)
OSSD 1 OSSD 2
E)
CH1 CH2
CH1 CH2 CH1 CH2
M
A
F)
Note!
Always use transient suppressors when inductive loads are connected to the relay outputs.
2TLC010067M0201 Rev.G
17
7.2
One channel connection
The safety device contact must be closed before the safety relay can be set in active mode.
Opening of the safety device contact inactivates the safe outputs.
One channel connection, +24 VDC static signal
One channel connection from T1
7.3
Two channels connection with equivalent contacts
Both contacts must be closed before the safety relay can be set in active mode. Opening one or both contacts inactivate the safe outputs. Both contacts must be opened and closed before the outputs can be activated. A short-circuit between the safety inputs is not monitored by the safety relay if T connections are not used. In this case category 4 can only be achieved if a safety device with short-circuit monitored outputs is connected.
Two channels connection with equivalent contacts, +24 VDC static signal
18 2TLC010067M0201 Rev.G
Two channels connection with equivalent contacts from T1/T2
7.4
Two channels OSSD connection
Safety devices with dual OSSD outputs can be connected to R1 and R2. Short-circuit between the signals and to 24V DC are detected by the safety device from where the OSSD-signal originates.
Two channels connection with OSSD external signals
7.5
Reset button connection example
To use the multi-reset function the X1 inputs must be connected in parallel from the reset button. The X4 outputs must be parallel connected to the reset button indication light. All the safety relays involved in the multi-reset chain must be set to manual reset.
Connection example of reset button including indication light.
SR1 SR2 SR3
Mixed state examples
SR1
A
SR2
A
2TLC010067M0201 Rev.G
SR3
A
Mixed state
A
19
Mixed state examples
A
A
SR1
A
SR2
A
I
WFL
I
WFL
I
I
SR3
I
WFL
I
I
Mixed state
I
WFL
A = Active. The reset button light is turned off.
I
WFL
= Inactive, waiting for reset. The input signals are accepted, the reset button light is flashing, waiting for a button press.
I = Inactive. The input signals are not accepted and the reset button light is constant on.
20 2TLC010067M0201 Rev.G
8
8.1
Configuration
Setting switch
• Use the switch (S) to change settings between automatic reset (A) and manual reset (M).
• Power cycle (power off and on) the safety relay when a setting has been changed.
S
M
8.2
8.3
A
Note!
The wiring for automatic/manual reset has to be fulfilled to complete the reset functionality.
Timer settings
The safety relay has fixed off-delay function time, 0.5 seconds
Output groups
The delay time settings have effect on the secondary output group, pair (33/34 and 43/44).
The primary output group, pair (13/14 and 23/24) is effected immediately, following the mode of the safety relay.
2TLC010067M0201 Rev.G
21
9
9.1
9.2
Maintenance
Maintaining precautions
Warning!
Comply to maintenance precautions. Risk of severe personal injury.
A defective safety relay shall be replaced with a new. Never bypass the safety circuit. Repair and exchange of parts of the safety relay is forbidden. That may impair the safety of the system and could lead to serious personal injury. In case of breakdown or damage to the safety relay, contact nearest ABB Electrification service office or reseller.
ABB will not accept responsibility for failure of the functions if the installation and maintenance requirements shown in this document are not implemented. These requirements form part of the product warranty.
Scheduled test
Scheduled test, high demand application
All safety relays and connected safety devices used in high demand applications must be tested once a year.
Scheduled test, low demand application
All safety relays and connected safety devices used in low demand applications must be tested every third year.
Test sequence
Test should be conducted according to:
1.
Set inputs to inactivate outputs.
2. Wait until all outputs are in off-state.
3. Set inputs to activate outputs.
4. Monitor that outputs are activated.
22 2TLC010067M0201 Rev.G
10
10.1
Troubleshooting
Front LEDs
A. CH1 Safety input channel 1 status
B.
MODE Mode status
C.
CH2 Safety input channel 2 status
A
B
C
10.2
LED operation indication and error status
CH1 off green off
Mode off green flash green
CH2 off green off
Status Action
The safety relay is not powered
Check A1–A2 voltage and connections
CH1 and CH2 accepted. Reset made and outputs activated.
CH1 and CH2 unaccepted. A timer function is counting down while the safety relay remains activated
2TLC010067M0201 Rev.G
23
24
CH1 off green off off green green green fast flash green fast flash green red red
Mode flash green flash green blue blue blue blue blue blue blue fast flash blue flash red
CH2 Status Action green off off green off green
CH1 unaccepted and CH2 accepted. A timer function is counting down while the safety relay remains activated
CH1 accepted and
CH2 unaccepted.
A timer function is counting down while the safety relay remains activated
No channels accepted
CH1 unaccepted,
CH2 accepted
CH1 accepted,
CH2 unaccepted
CH1 and CH2 accepted, the safety relay wait for reset fast flash green Two-channels error: CH2 has been unaccepted and then accepted again while CH1 remained accepted green Two-channels error: CH1 has been unaccepted and then accepted again while CH2 remained accepted
Check CH1 and
CH2
Check CH1
Check CH2
Check reset settings, wiring and reset/test circuit
Check installation.
Restore by opening and closing both CH:s at the same time
Check installation.
Restore by opening and closing both CH:s at the same time fast flash green red red
Reading error on
R1 and R2
Fail-safe mode, a new setting has been stored
Fail-safe mode, the system is waiting for a new setting
Check installation.
Restore by opening and closing both CH:s at the same time
Power cycle the unit to use the new setting
Change the timer setting switch
2TLC010067M0201 Rev.G
CH1 red red fast flash red
Mode fast flash red fast flash red fast flash red
CH2 red fast flash red red
Status Action
The safety relay is in failsafe mode
Check installation and power cycle
Failsafe mode due to short circuit between CH2 and
24 VDC or T1
Check and remove the short circuit
Failsafe mode due to short circuit between CH1 and
24 VDC or T2
Check and remove the short circuit
2TLC010067M0201 Rev.G
25
11
11.1
26
Model overview
Sentry models
The connection blocks are delivered without coding. The coding kit is an optional accessory and is ordered separately.
Model
BSR10
BSR10P
BSR11
BSR11P
BSR23
BSR23P
SSR10
SSR10P
SSR10M
SSR10MP
SSR20
SSR20P
SSR20M
SSR20MP
SSR32
SSR32P
SSR42
SSR42P
TSR10
TSR10P
Order code
2TLA010040R0000
2TLA010040R0001
2TLA010040R0200
2TLA010040R0201
2TLA010041R0600
2TLA010041R0601
2TLA010050R0000
2TLA010050R0001
2TLA010050R0100
2TLA010050R0101
2TLA010051R0000
2TLA010051R0001
2TLA010051R0100
2TLA010051R0101
2TLA010052R0400
2TLA010052R0401
2TLA010053R0400
2TLA010053R0401
2TLA010060R0000
2TLA010060R0001
Description
Screw compression connection blocks. 24VDC
Push-in connection blocks.
24VDC
Screw compression connection blocks. 24VDC
Push-in connection blocks.
24VDC
Screw compression connection blocks. 24VDC
Push-in connection blocks.
24VDC
Screw compression connection blocks. 24VDC
Push-in connection blocks.
24VDC
Screw compression connection blocks.
85-265VAC/120-375VDC
Push-in connection blocks.
85-265VAC/120-375VDC
Screw compression connection blocks. 24VDC
Push-in connection blocks.
24VDC
Screw compression connection blocks.
85-265VAC/120-375VDC
Push-in connection blocks.
85-265VAC/120-375VDC
Screw compression connection blocks. 24VDC
Push-in connection blocks.
24VDC
Screw compression connection blocks. 24VDC
Push-in connection blocks.
24VDC
Screw compression connection blocks. 24VDC
Push-in connection blocks.
24VDC
2TLC010067M0201 Rev.G
11.2
Model
TSR20
TSR20P
TSR20M
Order code
2TLA010061R0000
2TLA010061R0001
2TLA010061R0100
TSR20MP
USR10
USR10P
USR22
USR22P
2TLA010061R0101
2TLA010070R0000
2TLA010070R0001
2TLA010070R0400
2TLA010070R0401
Accessories and spare parts
Type
Connection block
Connection block
Coding kit
Order code
2TLA010099R0000
2TLA010099R0001
2TLA010099R0100
Description
Screw compression connection blocks. 24VDC
Push-in connection blocks.
24VDC
Screw compression connection blocks.
85-265VAC/120-375VDC
Push-in connection blocks.
85-265VAC/120-375VDC
Screw compression connection blocks. 24VDC
Push-in connection blocks.
24VDC
Screw compression connection blocks. 24VDC
Push-in connection blocks.
24VDC
Description
Screw compression type
Push-in type
For coding connection block
2TLC010067M0201 Rev.G
27
12
12.1
Dimensions
All dimensions are in mm.
Sentry
C
28
Measure
A
B
C
A
B
Connection block type
Screw connection type
120
22,5
120
Push-in type
120
22.5
123
2TLC010067M0201 Rev.G
13
13.1
Technical data
Technical data
Manufacturer
ABB Electrification Sweden AB
SE-721 61 Västerås
Sweden
Note!
While every effort has been taken to ensure the accuracy of the information contained in this document, ABB cannot accept responsibility for errors or omissions and reserves the right to make changes and improvements without notice. Performance data given in this document is provided as a guide for the user in determining suitability and does not constitute a warranty. It may represent the result of ABB’s test conditions, and the users must correlate it to actual application requirements. Actual performance is subject to the ABB
Warranty and Limitations of Liability.
Note!
Caution!
There may be working points that will lead to higher performance for a specific application. An example would be the combination of installation distance between products, total load current and ambient temperature.
The difference between absolute maximum rating and max operating rating is the following: The product will have full performance as long as all parameters are within operating rating, in any combination
If any of the values in Absolute maximum rating are exceeded, the relay must be disposed.
Absolute maximum rating
Maximum voltage rating for A1 and A2 Note 2
Maximum voltage rating for R Note 2
30 VDC
Maximum voltage rating for X1 Note 2
Maximum voltage rating for X4 Note 2
30 VDC
30 VDC
30 VDC
Maximum operating breaking voltage for relay contacts
500 Vp
Maximum voltage rating for NO contacts 265 VAC or 350 VDC
Maximum current rating for 1 NO relay contact 8 A
Maximum load capacity, Σlth 2 Note 1 ≤36²
Note 1 : Σlth 2 is the sum of the square for each relay output contact. For example: I1 = 2
ARMS
; I2 =
4
ARMS
; I3 = 5
ARMS
; I4 = 1
ARMS
→ Σlth 2 = 4 + 16 + 25 + 1 = 46 2
Note 2 : Fault voltages up to 60 V is not dangerous but the safety relay might be broken or its performance might be degraded.
Power supply
Power supply type
Operating voltage
Terminal connection
Consumption
PELV/SELV
+24 VDC +15 %, -20 %
A1 = +24 VDC and A2 = 0 VDC (GND)
10W
2TLC010067M0201 Rev.G
29
30
Power supply
Internal consumption
Required fuse
6W
4 A gG external fuse is required (According to
UL248: any (JDYX/7) Fast acting,Ratings 250V,
4A, IR200A)
Relay output specification
Relay output configuration Note 1
Maximum operating switching voltage
Overvoltage category
Rated impulse withstand voltage
Rated operational voltage
Minimum operating contact load
Maximum operating switching frequency
Rated isolation voltage
2 NO + 2 NO Note 1
250 VAC
II
4 kV
250 VAC
5 VDC / 10 mA (15 VDC / 3 mA)
0.5 Hz
400 V
Note 1 : Two relay groups. The second relay group can be controlled with timer settings.
Note!
In a 400 V system a 3 phase load shall only be used in a star connection.
NO contact
AC load (AC15, AC1) Rated operating voltage (Ue) 250 VAC
Rated operating current (Ie) 1 contact 3A
2 contacts
3 contacts
4 contacts
3A
3A
3A
DC load (DC13, DC1) Rated operating voltage (Ue) +24 VDC
Rated operating current (Ie) 1 contact 3A
2 contacts
3 contacts
3A
3A
Required fuse
4 contacts 3A
4 A gG, >=1 kA short circuit protection (4 A according to
UL248)
T1/T2 safety device interface specification
Output (O) T1 and T2
Output high voltage (VOH) Note 1 Minimum
Maximum
15.8 VDC
25.6 VDC
0.8 VDC
Maximum output low voltage (VOL max
)
Maximum output current Note 2
Signal frequency
Pulse length
Maximum capacitance to ground
Note 1 : VOH typical = power supply voltage -2.8 VDC
Note 2 : Current limited internally to typical 70 mA
Safety device interface specification
Input (I) R1 and R2
50 mA
5 Hz ±1 Hz
500 μs ±100 μs
100 nF
2TLC010067M0201 Rev.G
Safety device interface specification
Maximum operating input voltage
Minimum input high voltage (VIH min
) Note 1
Maximum input low voltage (VIL max
) Note 2
Typical input impedance
Maximum current sink (I sink
) Note 3
Maximum OSSD pulse length
27.6 VDC
9.8 VDC
6 VDC
1.5 kΩ
20 mA
1.0 ms
Note 1 : Voltage level above VIH min
is interpreted as logic “1”, in worst case operating conditions.
Note 2 : Voltage level below VIL max
is interpreted as logic “0”, in worst case operating conditions.
Note 3 : If VIH ≥15 VDC is applied to R1 and R2 (Isink is typical 2.8/VDCR).
Test/start/reset interface specification
Input (I) X1
Minimum input high voltage
(VIH min
) Note 1
Maximum input low voltage
(VIL max
) Note 2
Typical input impedance
9.8 VDC
6 VDC
800 Ω
Input/Output (I/O) X4
Output high voltage (VOH) Minimum
Maximum
Output low voltage (VOL) Minimum
Maximum
Minimum input high voltage (VIHmin) Note 1
Maximum input low voltage (VILmax) Note 2
15.8 VDC
25.6 VDC
0 VDC
0.8 VDC
13.2 VDC
9.0 VDC
Typical input impedance
Output current limit, short circuit protection
Square wave signal frequency for automatic reset configuration/ manual reset configuration
Minimum
Maximum
Minimum
Maximum
5 kΩ
64 mA
75 mA
98 Hz
102 Hz
Maximum current sink (I sink
) 20 mA
Note 1 : Voltage level above VIH min is interpreted as logic “1”, in worst case operating conditions.
Note 2 : Voltage level below VIL max
is interpreted as logic “0”, in worst case operating conditions.
Response time
Delay at power on
Response time at activation Automatic reset Note 1
Manual reset Note 1
≤ 1.5 s
≤ 50 ms
Response time at inactivation
≤ 50 ms
≤ 20 ms
Note 1 : Additional 500 ms input acceptance delay for pressure sensitive device.
Electrical operations lifetime
Load Σ lth 2 ≤ 13 AC1, AC15
DC1, DC13
30 000 operations
100 000 operations
2TLC010067M0201 Rev.G
31
32
Electrical operations lifetime
Measurement conditions:
• Maximum breaking voltage for relay contacts: 250 V
• Maximum switching voltage for relay contacts: 400 V
• Rated current
• Switching frequency ≤ 0.1 Hz (Switching frequency > 0.1 Hz will shorten life.)
• T ≤ 55 °C
• No arc suppression (Usage of arc suppression will prolong life but may increase response time at inactivation.)
• 3 phase load in a star connection.
Mechanical data
Weight
Material
Color
Housing
190 – 230 g
PA66 with 25 % fiberglass
(UL94 V0)
PA66 (UL94 V0) Connection block, screw compression type
Connection block, push-in type PA66 with 25 % fiberglass
(UL94 V0)
Opener, push-in type
Housing
PBT/GF (UL94 V0)
Yellow
Connection block, screw compression type
Black
Connection block, push-in type Black
Opener, push-in type Orange
35 mm DIN rail (DIN 50022) Attachment requirements
Environmental data
Pollution degree
Protection class Safety relay
Enclosure for installation
Ambient temperature range for operation within specified operation range
Ambient temperature range for storage
Humidity range for operation
II
IP20
At least IP54. Lockable.
-25°C – +65°C
Humidity range for storage
Maximum temperature gradient
Altitude
Vibration
Shock
-40°C ≤Ta ≤ +70°C
10 % ≤ Rh ≤ 90 %, no icing, occasional condensation
10 % ≤ Rh ≤ 95 %, no icing, occasional condensation
2°C/min
Suitable for use at ≤ 2000 meters above sea level
10-55 Hz sine, 0.35 mm (1 oct/ min 20 sweep cycles, all directions)
5g, 11 ms Half sine +/- 100
Shocks
2TLC010067M0201 Rev.G
EU Directive Compliance
Directives
UK Regulations Compliance
Regulations
US/CA Compliance
Application standard compliance
Standard compliance and approvals
Application standard compliance
Functional safety standard compliance
Electrical safety standard compliance
Electromagnetic compatibility standard compliance
Approvals
CE
TÜV SÜD cULus
CCC
RCM
S
KC
UKCA
European Machinery Directive 2006/42/EC
EMC Directive 2014/30/EU
RoHS Directive 2011/65/EU
RoHS3 Directive 2015/863
2008 No.1597 Supply of Machinery (Safety)
Regulations (MD)
2012 No.3032 Restriction of the Use of Certain
Hazardous Substances in Electrical and
Electronic Equipment Regulations (RoHS)
2016 No.1091 Electromagnetic Compatibility
Regulations (EMC)
UL 60947-5-1:2014
CSA C22.2 No. 60947-5-1:2014
CSA B44.1
EN ISO 13851:2019
EN ISO 13856-1:2013
EN ISO 13856-2:2013
EN ISO 13856-3:2013
IEC 61508-1–4:2010, up to SIL3
EN ISO 13849-1:2015, up to PLe/Cat.4
EN 62061:2005, up to SILCL3
EN 61511-1:2003
UL 61508
EN 50178-1:1997
EN 60204-1:2018
EN 60664-1:2007
IEC 60947-5-1:2009
EN 61326-3-1:2008
2TLC010067M0201 Rev.G
33
Standard
IEC 61508
EN ISO 13849-1, EN 62061
Mission time
Information for use in USA/Canada
Intended use
Power source
PFH
D
3.9E-9 and PFD 7.3E-5 (see chapter 8.2
Scheduled test)
PFH
D
3.9E-9
20 years
Applications according to NFPA 79
A suitable isolating source in conjunction with a fuse in accordance with UL248. The fuse shall be any (JDYX/7) fast acting, ratings 250V,
4 A, IR200A, and be installed in the +24 VDC and 230VAC power supply to the device in order to limit the available current.
34 2TLC010067M0201 Rev.G
14 Declaration of conformity
2TLC010067M0201 Rev.G
35
36
EC Declaration of conformity
(according to 2006/42/EC, Annex 2A)
We ABB Electrification Sweden AB
SE-721 61 Västerås
Sweden
Authorised to compile the technical file declare that the safety components of ABB AB manufacture with type designations and safety functions as listed below, is in conformity with the Directives
2006/42/EC - Machinery
2014/30/EU - EMC
2011/65/EU – RoHS
2015/863 – RoHS3
ABB Electrification Sweden AB
SE-721 61 Västerås
Sweden
EC type-examination certificate
M6A 049833 0032 Rev.00
Product
Safety relay
Sentry, all versions of
USR10, USR22, SSR10M,SSR10,
SSR20M, SSR20, SSR32, SSR42,
TSR10, TSR20M, TSR20, BSR10,
BSR11, BSR23
Notified Body
Used harmonized standards
Other used standards
TÜV Süd Product Service GmbH
Ridlerstrasse 65
80339 München
Germany
Notified body No. 0123
EN ISO 12100:2010, EN ISO 13849-1:2015,
EN 62061:2005+A2:2015, EN 60204-1:2006+A1:2009,
EN 60664-1:2007, EN 61000-6-2:2005, EN 61000-6-4:2007
EN 61508:2010
Magnus Backman
R&D Manager
Kungsbacka 2021-11-02 abb.com/lowvoltage
Original
2TLC010067M0201 Rev.G
We ABB Electrification
Sweden AB
SE-721 61 Västerås
Sweden
Authorised to compile the technical file
Declaration of conformity
(according to 2008 No 1597) declare that the safety components of ABB AB manufacture with type designations and safety functions as listed below, is in conformity with UK Statutory Instruments (and their amendments)
2008 No 1597 – Supply of Machinery (Safety) Regulations (MD)
2016 No. 1091 – Electromagnetic Compatibility Regulations (EMC)
2012 No 3032 – Restriction of the Use of Certain Hazardous
Substances in Electrical and Electronic Equipment Regulations
(RoHS)
ABB Ltd. Tower Court
Coventry CV6 5NX
United Kingdom
Product
Safety relay Sentry
USR10, USR22,
SSR10M,SSR10, SSR20M,
SSR20, SSR32, SSR42,
TSR10, TSR20M, TSR20,
BSR10, BSR11, BSR23
Used designated standards EN ISO 12100:2010, EN ISO 13849-1:2015,
EN 62061:2005+A2:2015, EN 60204-1:2006+A1:2009,
EN 60664-1:2007, EN 61000-6-2:2005, EN 61000-6-4:2007
Other used standards EN 61508:2010
Magnus Backman
R&D Manager
Västerås 2021-03-28 https://new.abb.com/low-voltage/products/safety-products
Original
2TLC010067M0201 Rev.G
37
38 2TLC010067M0201 Rev.G
2TLC010067M0201 Rev.G
39
ABB Electrification Sweden AB
SE-721 61 Västerås
Sweden
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Table of contents
- 10 Removing the safety relay from the DIN rail
- 10 Resetting the latching device
- 11 Connecting precautions
- 11 Connection blocks
- 11 Coding the connection blocks
- 12 Connecting to a screw compression type terminal
- 12 Connecting to a push-in type terminal
- 12 Wire properties
- 12 Wire length
- 14 5 Functions
- 14 Function overview
- 14 Power supply
- 14 Relay outputs
- 15 Safety device interface
- 15 Test, start and reset interface
- 15 Automatic reset
- 15 Manual reset
- 15 Multi-reset
- 16 6 Connections
- 16 Connection groups
- 17 7 Application connections
- 17 Connection examples
- 18 One channel connection
- 18 Two channels connection with equivalent contacts
- 19 Two channels OSSD connection
- 19 Reset button connection example
- 21 8 Configuration
- 21 Setting switch
- 21 Timer settings
- 21 Output groups
- 22 9 Maintenance
- 22 Maintaining precautions
- 22 Scheduled test
- 23 10 Troubleshooting
- 23 Front LEDs
- 23 LED operation indication and error status
- 26 11 Model overview
- 26 Sentry models
- 27 Accessories and spare parts
- 28 12 Dimensions
- 28 Sentry
- 29 13 Technical data
- 29 Technical data
- 35 14 Declaration of conformity