Raypak 241275 manual START-UP Procedure, Sequence of Operation

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START-UP PROCEDURE

Run full system flow for two minutes.

Initiate PID pump control to achieve target inlet temperature by slowing injector pump.

Boiler ΔT will not increase during bypass operation.

If target temperature is not achieved after seven minutes from “call for heat”, the system will shut down.

Fig. 18: Control Board

Sequence of Operation

1)Supply separate 220VAC, 1 Ø, 60 Hz power to Cold Run control.

2)Call for heat occurs at heater.

3)TRIG terminal of Economaster connection on heater CPW board outputs 24VAC to terminal 4 of terminal block 3 located in Cold Run controller.

4)Terminal 4 of TB 3 sends 24VAC to the coil of the SPST relay located in the cold run control panel.

5)The SPST relay coil is energized and closes the contacts allowing 24VAC from the Cold Run con- trol transformer to be sent to the CFH terminal of the Cold Run circuit board.

a)A two second delay occurs from the CFH signal waiting to send power from terminal MC of the cold run circuit board.

6)J9 terminal on the heater CPW board (interlock connection) outputs a 24 VAC signal to terminal 2 of terminal block 3 located in the cold run con- troller.

7)24 VAC is sent from terminal 2 of terminal block 3 to the NO contacts of the DPST relay located in

the cold run control panel.

8)After the two second delay on the cold run circuit board, pin MC outputs a 24 VAC signal to terminal AL0 of the Hitachi inverter.

9)The AL0 relay closes and outputs a 24 VAC signal to the coil of the DPST relay located in the cold run control panel.

10)The DPST relay coil energizes and closes the NO contacts.

11)Once the NO contacts of the DPST close, the heater 24 VAC is sent back to the heater to com- plete the Economaster circuit (pin 3 of terminal block 3) and the interlock circuit (pin 1 of terminal block 3) allowing the heater to fire.

12)Pin SC of the cold run circuit board sends 24VAC to Pin 1 (Forward) on Hitachi Inverter.

13)PCS terminal on Inverter outputs 12VDC signal to the common terminal of the reset switch located on the bottom of the cold run control panel.

14)The 12VDC signal crosses over the reset switch and goes to Pin FS on cold run circuit board.

15)12VDC on pin FS is jumpered to pin S1 on the cold run circuit board.

16)Pin FR on the TVC board outputs 10VDC to the Inverter to drive injector pump at full speed two- minutes waiting for the heater to reach full fire.

17)After the two-minute delay the 10VDC output sig- nal from pin FR reduces to approximately 8VDC at the inverter thus slowing the pump to approxi- mately 50 Hz.

18)The output signal continues to vary depending on the heater inlet temperature.

The heater will lockout and shut down if the set point on the inlet temperature is not achieved within seven- minutes from a call for heat.

The DIP switches on the Hitachi Inverter must be set as indicated on Fig. 19 below.

Fig. 19: DIP Switch Settings

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Contents Installation and Operating Instructions Page Time/Temperature Relationships in Scalds General SafetyCold Water Start InstallationOperation Connecting Power to the ControllerCold Start Sequence Operation Mode Selection SwitchElodrive Actuator Rotation Knob Setting TroubleshootingCold Water Start Troubleshooting Guide Wiring Diagram Cold Water RUN Model Pump Injection & Heater Pump Comparison Hi DeltaBefore Starting Injection Pump Cover InstallationPlace the cover on the pump Typical Boiler Piping Hi Delta shown Sequence of Operation START-UP ProcedureWiring Diagram Step Cold Water Run Troubleshooting GuideCold Water Start Illustrated Parts ListsCall OUT Description HI Delta MVB Cold Water Run Call Description HI Delta MVB OUT