Chauvin Arnoux STATOP 48-15 User Manual

Details precautions for temperature, vibrations, shocks, and dust to ensure optimal performance.

Details how to prepare the panel cutout and mount the controller using attachment yokes.

Instructs to verify the model matches the need and check the supply voltage range (90-260V).

Illustrates the terminal connections for the STATOP 24-15 model.

Illustrates the terminal connections for the STATOP 48-15 model.

Explains how sensor placement impacts control quality and suggests testing for optimal position.

Emphasizes using the correct sensor type and scale for accurate measurements.

Illustrates the navigation within the configuration menu for setting parameters.

Explains the four security levels (NONE, SET, USER, ALL) for the LOCK parameter.

Shows the steps and key presses required to enter the calibration mode.

Depicts the structure and access to the user menu for parameter adjustments.

Details parameters like SP1 (Setpoint of output 1) and their adjustment ranges.

Explains parameters available in the user menu, such as SP2 (Setpoint of output 2).

Describes the LOCK parameter for selecting security levels to lock parameters.

Explains the INPT parameter for selecting the type of input sensor or signal.

Explains the DP parameter for selecting the decimal point position.

Describes INLO (input value, beginning of scale) and INHI (input value, full scale).

Details SP1L (min. setpoint) and SP1H (max. setpoint) values.

Details how to enable manual mode, requiring LOCK=NONE and specific key presses.

Explains how to adjust output value in manual mode using arrow keys.

States that automatic operation is the normal mode of controller use.

Explains how to change the regulation setpoint in automatic mode for different models.

Explains the INPT parameter's role in selecting sensor or signal type.

Describes the four alarm modes: NORM, LTCH, HOLD, and LT.HO.

Explains autotune automatically determines regulation parameters without manual adjustment.

Details key presses to initiate autotune for both 48-15 and 24-15 models.

Introduces ramp function for gradual setpoint approach (soft start) and timer for alarm relay.

Explains setting the ramp slope using the 'rr' parameter (0-500°C/min).

Explains soak function is actuated by OUT2 set to TIMR, acting as a time-delay relay.

Details how soak function holds temperature for a set time (SP2) and then cuts off regulation.

Advises recording current values, changing one parameter at a time, and making small adjustments.

Sets integral (ti) and derivative (td) action times to '0' to prevent their effects.

Enters an arbitrary proportional band (Pb) and observes the result.

Increases Pb to achieve stable oscillation if initial adjustment causes large oscillation.

Measures the period of oscillations (Tc) in seconds.

Calculates and enters new PID parameters (Pb, Ti, Td) based on Pc and Tc.

Details the power supply voltage ranges (90-264 VAC and 11-26 VAC/VDC) and consumption.

Covers resolution, sampling rate, maximum voltage, and temperature drift for inputs.

Explains how open-circuit conditions are detected for various input types.

Details characteristics of relay output (2A/240VAC) and logic output (5V/30mA).

Lists load resistance for 4-20mA, 0-20mA, 0-5V, 1-5V, and 0-10V analogue outputs.

Details interface options (RS-232, RS-485) and protocol (Modbus RTU).

Explains reverse action for heating, direct action for cooling, and cooling with PID.

Details P/PD parameters (proportional zone, offset) and PID (fuzzy logic).

Lists PID parameters: cycle time, integral time, and derivative time.

Lists safety standards compliance: UL, CSA, EN61010.

States EMC standards compliance: EN61326.

Specifies IP ratings for front panel, indoor use, and terminals.