PRODUCT DETAILS
1756-OBV8S — 1756 GuardLogix 8-Point 24V DC Safety Output Module
The 1756-OBV8S is an 8-point 24V DC safety transistor output module for the 1756 GuardLogix safety controller platform. Each of the eight output points is a sourcing (PNP) transistor rated for 2A continuous, with individual electronic short-circuit protection and per-point diagnostic reporting. The module is certified to SIL 2 (IEC 61508) and PLd Category 3 (ISO 13849-1) as part of a complete GuardLogix safety system, enabling the safety controller to command field devices — drives via STO, safety contactors, solenoid valves, warning devices — in a safety-rated output circuit.
Safety output modules are a different product category from standard output modules, and the distinction has functional significance. A standard output module switches outputs on command. A safety output module also monitors that the output reached the commanded state, watches for channel faults and short circuits, performs internal self-tests to verify the output circuitry's integrity, and reports diagnostic status back to the safety controller on every scan cycle. That continuous monitoring is what makes the output usable in a certified safety function.
Specifications
| Parameter | Value |
|---|---|
| Part Number | 1756-OBV8S |
| Platform | 1756 GuardLogix Safety System |
| Output Points | 8 |
| Output Type | Sourcing (PNP) transistor, 24V DC |
| Output Current per Point | 2 A continuous |
| Short-Circuit Protection | Electronic, per point |
| Safety Rating | SIL 2 (IEC 61508), PLd Category 3 (ISO 13849-1) |
| Dual-Channel Output Support | Yes (two adjacent points configurable as a dual-channel pair) |
| Diagnostic Coverage | High (per-point, reported to safety task) |
| Fault Detection | Short circuit, open load, cross-channel short |
| Test Pulse Output | Yes (for passive device testing) |
| Backplane Current (5V) | 500 mA |
| RTB | 1756-TBNH or 1756-TBS6H (36-pin) |
| Operating Temperature | 0°C to 60°C |
| Standards | IEC 61508 (SIL 2), ISO 13849-1 (PLd), UL 508, CE |
Commissioning and Safety Validation
The 1756-OBV8S must be configured in Studio 5000 as a safety module on a GuardLogix controller's safety task I/O tree — not as a standard module. The safety task runs at a separate, defined rate with its own execution budget, independent of the standard task. Safety output tags are accessed only from within the safety task; standard task logic cannot directly command safety outputs.
Safety system validation is a mandatory step before production use. For each safety output or output pair, the validation procedure tests:
- Safe state on command: command the output off from the safety task and verify the field device de-energizes correctly.
- Fault detection — short circuit: temporarily create a short at the output terminals and verify the module reports a short-circuit fault within the rated response time.
- Fault detection — discrepancy (dual-channel): for dual-channel pairs, verify the module detects and reports a discrepancy when one channel fails to de-energize.
- Recovery from fault: resolve the injected fault and verify the system can return to normal operation only after a deliberate restart command — automatic restart on fault clear should not be possible for safety functions.
FAQ
Q: Can the 1756-OBV8S be used with a standard 1756 L-series controller instead of GuardLogix?
The module can be installed in a standard 1756 chassis, but safety functionality requires a GuardLogix safety controller managing a dedicated safety task. Without GuardLogix, the safety monitoring, diagnostics, and SIL certification do not apply. Standard controllers can read module status data but cannot use the outputs in a certified safety function.
Q: What is the maximum cable length between the module and field devices?
There's no explicit maximum cable length specification for the outputs themselves — the 2A sourcing current is adequate for most field cable lengths. However, cable capacitance affects the test pulse timing that the module uses for fault detection. Very long cables (exceeding 100 m) may interfere with test pulse detection. Verify cable length against the module's installation documentation for the specific safety function configuration.
Q: Does the test pulse interrupt the output visibly — will it cause the connected device to de-energize briefly?
The test pulse is a brief, controlled interruption. For most inductive loads (solenoids, relay coils), the inductive energy storage bridges the test pulse without the device de-energizing — the pulse duration is shorter than the device's mechanical response time. For very fast-response devices, verify the test pulse width against the device's hold-in time to confirm it won't cause unintended de-energization.
Q: Can non-safety devices be wired to this module for standard control?
Electrically, any 24V DC load within the 2A rating connects to the output. However, using safety module outputs for standard (non-safety) devices wastes safety output capacity and mixes safety and standard output wiring in the same module. Standard outputs belong on standard output modules; safety outputs should be reserved for safety-rated loads where the diagnostic monitoring and certified performance are needed.
Q: How does the module behave when the GuardLogix controller goes into a safety fault?
On a safety controller fault, the safety outputs de-energize — the safe state for outputs is off. This is by design: a safety controller fault is itself a potentially unsafe condition, and the outputs must not remain energized without active safety controller supervision. The exact behavior is configurable in Studio 5000 within the bounds allowed by the safety system design.



