Difference between revisions of "Oven Control"

Revision as of 15:32, 4 November 2008

Introduction

The air flow used by the oven is pressurized dry and filtered air at room temperature is provided by a dedicated compressor in the Hall. The air enters the system through a shut-off valve and a pressure regulator, which is typically set to an output pressure of 15 psi (knot 6). The flow rate is measured with a gas velocity sensor (Omega model FMA-905) connected to a display unit (Omega DP41-E-S2R) on the left side of the control box that provides an alarm to indicate insufficient flow. The air then passes through two resistive heaters (120 VAC, 1200 W) and continues through insulated copper tubing into the target oven. The oven material is ceramic which can withstand a temperature of at least 300C continuously. The air finally exits the system through an exhaust pipe where it can cool down. Both inlet and exhaust pipes are inside the oven supporting tube filled with insulation material.

A 100Pt RTD (Omega model F3105) measures the temperature inside the oven. A process controller (Omega CN77540-C2) sitting in the middle of the control box operating in PID mode drives the heater via a solid-state relay (SSR) box regulating one of the heater power dependent on the temperature detected by the RTD. Another heater stays on all the time and can be adjusted by a variac located in the Hall. The SSR (Omega model SSR240DC10) accepts a low-voltage (3 − 32 VDC) control signal of about 30 mA. Mechanical relays between the SSR and the heater allows interruption of both 120 VAC heaters' power in case of a malfunction.

A thermocouple (Omega 5SC-GG-K-30-36) is mounted on the tubing right after the heater to allow monitoring of the temperature of the air exiting the heater. Another display unit (Omega DP41-TC-S2R) on the right side of the control box reads the thermocouple and generates an alarm if the temperature exceeds a preset threshold.

The PID controller as well as the two display units are installed in a 19” chassis in the electronics racks on the second floor of the counting house where they can be manually operated if necessary. All other components are located in the Hall in the vicinity of the target. The instruments can be monitored and programmed remotely via serial RS-232 communications, which allows convenient control via an EPICS/MEDM graphical user interface (GUI) in the counting house (Not working at this moment).

Oven Controller Panel

Oven air flow meter

Alarm 1 of the meter is used to interlock laser while Alarm 2 interlocks both heaters. The alarm will be triggered if the airflow is less than certain pre-set levels. If Alarm 1 is triggered, a red 3 will be shown in the meter below the readings, and Alarm 2 will show a red 4 as in the control box picture. Both Alarm 1 and Alarm 2's thresholds is in deviation mode, since Setpoint 1 and Setpoint 2 of this meter should always be set to 0 Setpoint 3 is simliply the threshold for Alarm 1 while Setpoint 4 is the threshold for Alarm 2. To change Setpoint 3, do the following steps:

Oven Controller Connection Diagram

Oven Controller Alarm Diagram