Fisher & Paykel MR700, MR720, MR730, MR480 technical manual Circuit Operation

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4.0CIRCUIT OPERATION_________________________________________

4.1INTRODUCTION

This section describes briefly the operation of each of the circuit sections. Refer to the circuit diagrams in § 8.5 to 8.8.

4.2CONTROL BOARD

The one basic control board, with various discreet hardware changes, provides the controlling functions for the MR730/720/700/480 range of humidifiers. Each model however is controlled by a unique software version.

4.2.1CONTROL THERMISTORS

Three standard characteristic thermistors control all temperature functions:

One thermistor is mounted in a probe at the end of the delivery hose to measure delivered airway temperature (connector J4-1,3). This temperature is indicated by the digital display on the humidifier front panel.

A second thermistor mounted in a probe measures the chamber temperature at the top of the humidifying chamber (connector J4-2,3). In heater wire mode this thermistor is used to monitor and control the chamber outlet temperature.

A third thermistor is permanently mounted in intimate contact with the heaterplate (HP) (connector J3-1,3). This prevents excessive heaterplate temperatures during a warm up cycle.

4.2.2INPUT ANALOG SWITCHES U8 AND U9

The 1 by 8 analog switch (U8) selects under processor control (PB0-3) various input signals and reference potentials. Selected sequentially are potentials giving; (0-3): the position of the temperature set potentiometer VR3, and offset potentiometer VR2. (4-6): calibration temperatures of 9, 34.5 and 60 °C across resistors R18, R17 and R16, and from (7): the heaterplate (HP) thermistor.

From the 3 by 2 analog switch (U9) under processor control (PB4-6) the airway temperature and the chamber outlet temperatures from the dual probe temperature sensor are also read.

4.2.3ANALOG TO DIGITAL CONVERTER U10 B,D,E

The temperature probe inputs are filtered by the C30, C31, R28, R26, C19, C20 network for EMI suppression. The selected output of the analog switch network U8, U9 is fed to pin 10 of U10d, a low pass operational amplifier with a gain of 11. This stage is filtered with C23 to give protection from any voltage transients appearing at its input. The integrating stage U10b rests for most of the time (50 to 60ms) with R35 connected (through an analog switch in U9) across the integrating capacitor C22 holding it in a discharged state. With VR5 and R34 connected to the non-inverting input of U10b the stage has a ‘static' gain of about 0.5 giving a resting level of about -2.5 to -3 V at the output pin 1.

Under processor control (PB6) when the switch section of U9 across C22 is opened the output of U10b ramps up (0.1-5 ms). This rising ramp voltage is fed via R36 to the comparator stage U10e where it is referenced via R41 to the output voltage level of U10d. When the ramp voltage exceeds the threshold level of U10d the output of the comparator stage U10e switches high. This fast rising edge, assisted by the speed up capacitor C24, is fed to the RST 6.5 interrupt input of U3.

4.2.4PROCESSOR CONTROL U3

After selecting one of the 10 input signals through the switch network of U8, U9 there is a 50 to 60ms pause to allow U10d to settle. At this point the switch across the integrator U10b is opened initiating a linear ramp output and the 14 bit counter in U4 is started. Within a time period of 100 ns to 5 ms the ramp will cause a RST6.5 interrupt to occur. The processor on responding to the interrupt, first stops the counter, then closes the switch across the integrator readying it for the next cycle. The input switch network U8, U9 can now be stepped to the next input. The 14 bit counter can now be read and its value equated to the input signal. In this way all 10 input channels are continuously scanned. VR5 is set

Ref. 185040646 MR730/720/700/480 Technical Manual ¯ Revision F ¯ Issued March 2001

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Contents Auckland, New Zealand D E L S MR730 MR720 MR700 MR480National Office Revision F changes Section Description of ChangeContents Performance Check MR480 Dual Probe Temperature Test10.1 Power PCB Harness Connection DiagramMaintenance Schedule B1.1 Maintenance Schedule ChecklistAppendix D Models MR730/720/700 MR700 Series General SpecificationsRSD EOHSET TOPMR700 Series Humidifiers with Version 1.0 Software Operating Controls and ModesStandby Button MR700/720/730 only 1 MR700/MR730 ALL Software VERSIONS, MR720 Version 1.0 only 2 MR720 Version 2.0, 3.0 SoftwareAlarms and Indicators Version 3.0 Software Version 1.0 and Version 2.0 SoftwareAudio Alarm Circuit Operation Power Line Interrupt Revisions D/F Pcbs Revision H and J Pcbs For models with Revision D PCB and earlier CalibrationPage Performance Check Alarms Check MR700/720/730 Dual Probe Temperature Test Servicing Information Replacing revision F or earlier power PCB MR700/720/730Replacing revision F or earlier power PCB MR480 Fault Location SCHEMATICS, Part Lists and Mechanical Drawings Power Board Control Board Component Layout Revision F PCB Page This page Left Blank Circuit Diagrams Revision H and J PCB Control PCB Circuit Diagrams Revision H and J PCB Power PCB Circuit Diagrams Revision F PCB Control PCB Circuit Diagrams Revision F PCB Power PCB LED6,LED7 LED8,LED9,LED10 DSP1, DSP2, DSP3LED1, LED3 LED2,LED4, LED5,LED11VR4 SW5SPK1 VR1Fuse fast acting 2 a 20 × 5 mm for 230 999830009 MR480AGM Exploded Diagrams MR480 10.3 MR730/720/700 Mechanical Parts MR720ASU Exploded Diagrams MR730/720/700 Heaterplate Assembly Parts MR730/720/700/480 Page PCB Identification Diagram Power PCB Harness Connection Diagram Date Change First Serial Number Comments Affected Product Change HistoryYear Model Code Serial Number AAA XxxxxOFF Appendix aA2.3 Integral Display Error MessagesEP4 EP1EP2 EP3First Byte Second ByteThird Byte A5.4 Serial Data Interface Connector Appendix B B1 Maintenance ScheduleElectrical Safety Checks as required Photocopy and File in Maintenance RecordsPossible cause Action to take Appendix CHigh Temperature C1.6 C1.5LED on Check Voltage Rating Of Unit Appendix D Cleaning instructionsAppendix E Setup NotesDynamic Test Sequence MR730/720/700 Dynamic Test Procedure MR480