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| Register | Function | Description | Typical Value | |----------|----------|-------------|---------------| | 40001‑40004 | Input Registers | Raw 16‑bit ADC values for Channels 1‑4 | 0–65535 | | 40101 | Holding Register | Channel 1 scaling factor (e.g., 1000 = 1 V) | 1000 | | 40102 | Holding Register | Channel 2 scaling factor | 1000 | | 40110‑40113 | Holding Registers | Zero‑offset correction per channel | 0 | | 40200 | Coil | Module “Reset” (1 = reset) | 0/1 | | 40201‑40204 | Coils | Channel enable (1 = active) | 1 | | 40300 | Input Register | Status word (bit‑0 = fault, bit‑1 = over‑range, …) | – |

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| Category | Key Points | |----------|------------| | | The EBOD‑917 is a compact, 4‑channel, isolated analog input module used primarily in industrial automation and data‑acquisition systems. It is designed to accept voltage or current signals and feed them to a PLC, DCS, or PC‑based monitoring platform. | | Typical Applications | • Process monitoring (temperature, pressure, flow) • Remote sensor interfacing • Laboratory data acquisition • Energy‑metering front‑ends | | Physical Specs | • Dimensions: 120 mm × 80 mm × 30 mm (H × W × D) • Weight: ~250 g • Mounting: DIN‑rail or panel‑mount (screw holes M3) | | Electrical Specs | • Input Types: Voltage (±10 V, 0‑10 V) or current (4‑20 mA) selectable per channel • Isolation: 1500 V dc (per IEC 61010‑1) • Supply: 24 V DC ± 10 % (max 150 mA) • Resolution: 16‑bit ADC (≈0.305 mV per LSB on a ±10 V range) | | Communications | • Primary Interface: Modbus‑RTU (RS‑485) up to 115.2 kbps • Optional: Ethernet‑TCP (via add‑on converter) • Addressing: 1‑247 (configurable via dip‑switches) | | Environmental Ratings | • Operating Temp: –25 °C to +70 °C (industrial) • Storage Temp: –40 °C to +85 °C • Ingress Protection: IP20 (non‑sealed) – use a protective enclosure for harsh environments | | Safety & Compliance | • CE, UL, IECEx (explosion‑proof version available) • Built‑in short‑circuit and over‑voltage protection (clamps at 12 V/24 mA) | | Typical Wiring | 1. Power: Connect 24 V DC to V+ and V‑ terminals, observing polarity. 2. Signal: For a 4‑20 mA loop, connect sensor + to I+ and sensor – to I‑ (or use a shunt resistor for voltage mode). 3. Ground: The module chassis ground may be tied to the system ground if isolation requirements allow. | | Common Setup Steps | 1. Power up the module and verify the status LED (green = OK, amber = warning, red = fault). 2. Set the Modbus address using the dip‑switches (refer to the user manual for binary mapping). 3. Configure channel type (V or I) via the onboard switch or through a configuration tool (if the firmware supports it). 4. Map the channels in your PLC/DCS software (e.g., assign registers 40001‑40004 for the four inputs). | | Typical Troubleshooting | • No data / dead LED – Check 24 V supply polarity and continuity. • Random spikes – Verify proper shielding of sensor cables; add a 120 Ω termination at the RS‑485 line. • Incorrect scaling – Confirm the channel mode (V vs. I) matches the sensor type and that the correct calibration factor is applied in software. • Isolation fault – Measure the isolation resistance (>1 MΩ is expected). If it’s low, the module may have been exposed to a surge. | | Maintenance Tips | • Periodically inspect connector pins for corrosion, especially in humid or salty environments. • Keep the module’s ventilation openings clear; dust can affect heat dissipation. • Perform a firmware check annually—new releases often include improved noise filtering. | | Useful Resources | • User Manual (PDF) – includes wiring diagrams, dip‑switch tables, and register map. • Quick‑Start Guide – 2‑page PDF for “plug‑and‑play” installation. • Firmware Update Utility – Windows‑based tool (v1.3.4). • Technical Support – Email: support@ebod‑tech.com, Phone: +1‑800‑555‑0199 (8 am–5 pm EST). |