PRODUCT DETAILS
2097-V34PR5 — Kinetix 300 Single-Axis EtherNet/IP Servo Drive, 240V, 5A
The 2097-V34PR5 is a single-axis servo drive from the Kinetix 300 family, rated for 120/240V AC single or three-phase input and delivering 5A continuous output current to the connected servo motor. It communicates over EtherNet/IP, accepts incremental encoder feedback, and supports onboard motion program execution — a feature that allows the drive to run pre-programmed motion sequences independently without a controller issuing every move command in real time.
The Kinetix 300 occupies a distinct position in the Kinetix family: it's designed for applications that need capable servo control but don't require a full ControlLogix + 1756-M16SE motion architecture. Standalone indexing systems, simple pick-and-place with a defined set of motion steps, and conveyor positioning stations where the motion logic is fixed and straightforward are where the 2097-V34PR5 naturally fits. The EtherNet/IP port gives the drive visibility on the machine network for monitoring and recipe changes, without the drive needing a constant stream of move commands from a controller.
Specifications
| Parameter | Value |
|---|---|
| Part Number | 2097-V34PR5 |
| Series | Kinetix 300 |
| Continuous Output Current | 5 A |
| Peak Output Current | 10 A (for 2 s) |
| Input Voltage | 120V AC single-phase or 240V AC single/three-phase |
| Feedback | Incremental encoder (differential TTL) |
| Communication | EtherNet/IP |
| Onboard Motion | Yes — motion program execution via stored sequences |
| I/O | Digital inputs and outputs for local control / interlock |
| Dynamic Braking | Internal transistor; external resistor required |
| Safe Torque Off | Yes (hardwired STO inputs) |
| Enclosure | IP20 / Open Type |
| Operating Temperature | 0°C to 45°C |
| Standards | UL 508C, CE |
Practical Setup Steps
- Motor selection: not all servo motors are directly supported — verify the motor's electrical parameters (back-EMF, winding resistance, inductance, encoder resolution) are within the drive's acceptable range. The MotionView software includes a motor database for common motors.
- Encoder wiring: the drive accepts differential TTL encoder signals (A, B, Z). Use shielded cable, route it away from power wiring, and ground the shield at the drive end only. Encoder noise is the most common source of nuisance faults on new servo installations.
- STO wiring: the hardwired STO inputs must be connected to a safety relay or equivalent before the drive will enable. Do not jumper the STO inputs for convenience during commissioning — this removes the safety interlock and invalidates any safety-related design intent.
- Motion program load: build the index table and motion sequences in MotionView, verify them in simulation, then download to the drive over EtherNet/IP. Test each sequence at reduced velocity before running at full speed.
- Autotune: run the velocity loop autotune with the motor decoupled from the load if possible, then connected to the load. Accept the autotune results as a starting point and adjust gains for the application's performance and stability requirements.
FAQ
Q: Can the Kinetix 300 be controlled by a CompactLogix or ControlLogix controller?
Yes. A controller can issue move commands to the Kinetix 300 via EtherNet/IP explicit messaging. However, the Kinetix 300 does not support CIP Motion (the real-time cyclic servo protocol used by Kinetix 5500/5700), so it cannot be used in a coordinated multi-axis CIP Motion system. It is controlled as an intelligent device via message instructions, not as a native servo axis.
Q: What encoder types are supported?
The 2097-V34PR5 accepts differential TTL incremental encoders (A, B, and Z channels). Single-ended, HTL, or absolute encoder types are not supported on this model. Verify the motor's encoder output type before connecting.
Q: Is a braking resistor always required?
Only if the application produces regenerative energy during deceleration that exceeds the drive's internal absorption capacity. For light loads with moderate deceleration rates, the internal bus capacitors absorb regenerative energy without an external resistor. For high-inertia loads or fast deceleration, an external resistor connected to the DB terminals is needed to prevent bus overvoltage faults.
Q: Can the onboard motion sequences be changed without stopping production?
Motion programs can be updated via the MotionView software over EtherNet/IP while the drive is idle (not executing a move). The drive must not be in an active motion sequence during a program download. Planning program updates for shift changes or scheduled downtimes is the standard approach for production systems.
Q: How is the home position established after a power cycle?
The Kinetix 300 uses an incremental encoder — absolute position is not retained through power loss. After power-up, a homing sequence must be executed to re-establish the reference position before running index moves. The homing sequence type (home to switch, home to marker pulse, home to torque limit) is configured in the drive's motion program and executes automatically on the first home command after power-up.



