140XBP00300
Description
1. Product Overview
2. Key Features
3 module slots: accepts standard Quantum I/O, CPU, communication, and bus modules
High‑speed 32‑bit parallel backplane: 100 Mbps bandwidth, low latency
Integrated power distribution: +5 V logic, ±12 V I/O rails to each slot
Compact, cost‑effective: ideal for small I/O clusters and space‑constrained panels
Multi‑rack compatible: works with 140XBE10000 / 140XBE10000C for system expansion
Hot‑swap capable: modules can be inserted/removed under power
Industrial‑grade robustness: designed for high vibration and electrical noise
Certifications: CE, UL, cUL; RoHS compliant
3. Technical Specifications
General
Model: 140XBP00300
Type: 3‑slot backplane / rack segment
Slots: 3 (standard Quantum module form factor)
Bus architecture: 32‑bit high‑speed extension bus
Bus current draw: ~1100 mA (from rack power supply)
Power rails: +5 V (logic), ±12 V (I/O)
Weight: approx. 0.32 kg
Mounting: standard Quantum rack rails or panel‑mount kit
Environmental
Operating temperature: 0 °C to +60 °C
Storage temperature: −40 °C to +85 °C
Humidity: 10–80 % RH, non‑condensing
Altitude: ≤1,000 m (no derating)
Protection class: IP20 (front)
Vibration: 10–150 Hz, 0.15 mm amplitude (IEC 60068‑2‑6)
Shock: 15 g, 11 ms half‑sine (IEC 60068‑2‑27)
Mechanical
Dimensions (W×H×D): 60.51 × 250 × 103.85 mm
Material: metal chassis, fiberglass‑reinforced PCB
Connector: high‑density edge connector (module interface)
4. LED Indicators (on Modules, not Backplane)
PWR (Green): module power present and healthy
RUN (Green): module active and communicating on backplane
FAULT (Red): module or backplane fault detected
LINK (Yellow): backplane data activity
5. Installation & Wiring
Rack Installation
Align 140XBP00300 with Quantum rack mounting rails.
Slide into position and secure with mounting screws (torque per manufacturer specs).
Insert I/O modules into slots 1, 2, 3 until latched.
For multi‑rack systems, connect backplane cables between 140XBP segments and 140XBE expanders.
Power & Grounding
Power: supplied by rack power supply; no direct user wiring to backplane
Ground: connect backplane chassis to system earth ground
Cable routing: separate signal and power cables; use shielded cables in high‑noise areas
6. Configuration (Unity Pro)
Open Unity Pro V7.0 or later.
In hardware configuration, add a 3‑slot rack and assign 140XBP00300 as backplane.
Insert required I/O modules into slots 1–3.
Configure I/O addresses, diagnostics, and fault handling.
Download configuration to CPU; backplane initializes automatically.
7. Operation & Diagnostics
Normal Operation
All module PWR/RUN LEDs ON; FAULT LED OFF
Backplane provides stable power and communication to all three slots
Fault Conditions
Module FAULT ON: check module seating, backplane connector, or module failure
No module PWR: verify rack power supply and backplane voltage rails
Communication errors: inspect backplane cables, expanders, and system grounding
Diagnostic Data
Backplane voltage status (+5 V, ±12 V)
Module presence/absence flags
Bus communication quality metrics
8. Maintenance
Monthly: inspect module seating, LEDs, and cable connections
Quarterly: check mounting screw torque; clean backplane connectors (compressed air only)
Semi‑annually: verify ground continuity and shield integrity
Replacement: replace backplane if connectors are damaged or corrosion is present
9. Safety & Compliance
Qualified personnel only for installation, wiring, and maintenance.
Disconnect all power before servicing backplane or modules.
For industrial control systems only; not for direct life‑safety applications without additional safety layers.
Follow local electrical codes and EMC installation guidelines.
10. Compatibility
Quantum CPUs: 140CPU65150, 140CPU67160, 140CPU68060, 140CPU69060 and later
Expander modules: 140XBE10000, 140XBE10000C
I/O modules: all standard Quantum digital/analog I/O, safety, and specialty modules
Racks: compatible with Quantum 12/14/16‑slot rack systems
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