Product Short Description
Product Brief Introduction
FTX8327B112 is a high-precision multi-input PID temperature controller manufactured by ASCON Italy, designed for industrial furnace, oven, extrusion and thermal processing equipment. It supports universal thermocouple and RTD sensor input, auto-tuning PID control algorithm, multi-mode analog/digital output and digital communication for centralized process monitoring. The B112 suffix defines specific output and communication configuration: 4–20mA analog output + RS485 Modbus RTU interface.
Description
Core Technical & Performance Parameters
- Input Signal Types (Universal): K, J, S, T, E, B, N thermocouples; PT100, PT1000 RTD thermal resistance; 0–10V, 0–5V, 4–20mA analog voltage/current
- Temperature Measurement Range: -200°C ~ +1800°C (varies by sensor type)
- Control Precision: ±0.1°C resolution, total system measurement error ≤ ±0.3% FS
- Control Algorithm: 3-term PID auto-tuning, self-adaptive fuzzy PID, on/off two-position heating/cooling control
- Output Configuration (Model B112): 1 x 4–20mA analog control output; 1 x relay alarm output (250VAC 5A); RS485 Modbus RTU communication port
- Setpoint Range: Full match sensor input range, adjustable decimal point 0.1°C / 1°C
- Power Supply: 85–265VAC universal mains input, 50/60Hz, power consumption maximum 12VA
- Operating Temperature: 0°C ~ +50°C; storage -20°C ~ +70°C
- Humidity: 10%–90% RH non-condensing
- Panel Cutout Dimension: 92mm × 45mm standard industrial panel mounting hole
- Controller Outer Dimension: 96mm × 48mm × 110mm depth; weight 0.21kg
- Communication Baud Rate: 2400 / 4800 / 9600 / 19200 bps selectable Modbus RTU
Function & Feature Highlights
- Full auto-tune PID function automatically calculates proportional/integral/derivative parameters without manual calibration, eliminates temperature overshoot and steady-state error
- Dual heating/cooling control logic for refrigeration and thermal cycling equipment
- High/low temperature alarm relay output, configurable deviation alarm, absolute value alarm and sensor break fault alarm
- Universal sensor input automatically detects thermocouple/RTD type via menu configuration without hardware modification
- RS485 Modbus RTU multi-drop communication connects up to 32 controllers to single PLC/Scada monitoring system
- Digital filter algorithm suppresses industrial electromagnetic noise interference on sensor input signal
- Password-protected parameter menu prevents unauthorized modification of critical process temperature setpoints
- Sensor break detection function automatically triggers alarm and safety output shutdown if thermocouple/RTD wire disconnects
Material & Structural Characteristics
- Front Panel: Black flame-retardant ABS plastic, transparent scratch-resistant polycarbonate display window, membrane tactile operation buttons
- Internal Housing: High-temperature resistant plastic enclosure, fully isolated analog and digital circuit compartments to reduce signal crosstalk
- Terminal Block: Screw-type copper terminal connectors with nickel plating, accepts wire cross-section 0.5–2.5mm²
- Display: Dual 4-digit red LED digital display (measured value / setpoint value) with status indicator LEDs
- Heat Resistance: Internal circuit PCB with heat-resistant FR4 substrate, thermal insulation barrier between power supply and analog measurement circuits
- Protection Rating: IP65 front panel (panel mounted); IP20 rear terminal compartment inside control cabinet
Working Principle (Closed-Loop PID Temperature Control)
- Thermocouple/RTD sensor converts physical temperature into weak analog electrical signal transmitted to controller input terminals
- Internal high-resolution 24-bit ADC amplifies, filters and converts analog sensor signal into digital temperature value
- Controller compares measured real temperature against user configured target setpoint to calculate temperature deviation error
- PID algorithm computes corresponding control output value based on proportional (P), integral (I), derivative (D) coefficients; auto-tune function optimizes coefficients automatically during first heating cycle
- 4–20mA analog output transmits continuous control signal to heater power regulator (SCR, solid state relay) to adjust heating power proportionally
- RS485 Modbus port uploads real-time temperature, setpoint and alarm status to upper monitoring PLC; accepts remote setpoint adjustment commands
- Sensor break detection circuit monitors input signal impedance; open circuit triggers alarm relay output and safety control output cut-off
Installation Requirements
- Standard 92×45mm rectangular panel cutout mounting; install locking plastic clips to secure controller into equipment panel
- Rear terminal compartment must remain inside IP20 rated control cabinet; front panel only meets IP65 splash/dust protection
- Separate sensor wiring from high-current power cables by minimum 10cm distance to avoid electromagnetic signal interference
- Thermocouple wiring must use dedicated thermocouple compensation wire matching sensor alloy material
- RS485 communication bus requires 120Ω termination resistor installed at two physical endpoints of multi-drop network
- Mains power supply wiring must include 2A fuse to protect internal power circuit from short-circuit damage
Application Scenarios
- Industrial electric furnace, heat treatment oven, drying tunnel temperature regulation
- Plastic extrusion injection molding barrel temperature control
- Food processing baking, sterilization thermal cycle equipment
- Laboratory constant temperature water baths, environmental test chambers
- Packaging machinery heat sealing and hot melt glue temperature control
- Chemical reactor small vessel precise thermal process control
Operation & Maintenance Notes
- Do not install controller front panel in direct sunlight; strong UV light degrades LED display brightness over long-term operation
- Sensor compensation wire cannot be spliced with generic copper wire; mismatched wire material causes permanent temperature measurement offset error
- Auto-tune PID cycle must run under full load operating conditions; tuning under empty equipment generates incorrect PID parameters
- Rear terminal block screw torque limited to 0.6–0.8 N·m; over-tightening cracks plastic terminal housing
- Avoid cleaning front panel membrane buttons with alcohol or solvent; use dry microfiber cloth only
- If temperature measurement drift occurs annually, re-calibrate controller via built-in offset adjustment menu





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