ADC AD-200 service manual

Page 27

If the dryer repeatedly has Direct Spark Ignition (DSI) module “LOCKOUT” failures, the cause may be due to high voltage (HV) not getting into the DSI module ignitor probe assembly.

5)Check to insure that the red high voltage wire (between the ignitor spark electrode and the DSI module) is not wrapped around the sensor probe wire (the wire between the DSI module FP terminal and the Ignitor/Flame-Probe Assembly). If the wires are touching one another, separate and secure in place AWAY FROM ONE ANOTHER.

6)Check to insure that the dryer is properly grounded and that the ground connections (GND) to the DSI module are secure.

7)If the problem persists, it is most likely to be in the external components (not the DSI module), or wiring, due to a “FLAMEOUT”...proceed as follows:

NOTE: Preliminary steps - DO NOT omit - to minimize the time required to troubleshoot this system.

a)Disconnect the electrical power to the dryer.

b)Visually, check the DSI module components for visual damage.

c)Check wiring for loose connections, nicks, cracking at the ceramic insulator, or shorting of the sensor to the burner.

d)Inspect the DSI Ignitor/Flame-Probe Assembly...

...Check electrode for visible cracking at the ceramic insulator or shorting of sensor to burner

...Check to insure that the flame sensor rod is positioned over the flame area

...Check for carbon deposits on the flame sensor rod

...Check to insure that there is a 1/8” +/- 1/32” (3.175 mm +/- 0.79248 mm) gap between the ground rod and the ignitor spark electrode

b.After performing these inspections and making corrections - if any - restore power to the dryer...start the dryer and operate through one (1) complete cycle to insure that ALL components are functioning properly. If a no heat condition persists, refer to the Troubleshooting Flowcharts on page 25, page 26, and page 27.

1)To effectively use this information or the flowcharts, each step must be completed in sequence, performing whatever tests are suggested. After the completion of each test, the guide will direct the Service Technician to the next logical step in the troubleshoot sequence based on the outcome of the previous check.

2)Components should be replaced only after each step has been completed and replacements after each step has been completed and replacement is suggested in the flowchart. However, the experienced technician realizes that a loose connection or broken or shorted wire may be at fault where electrical components are concerned...and not necessarily the suspected component itself.

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Contents AD-200 Phase Retain This Manual In a Safe Place For Future Reference For Your Safety Page Table of Contents Section Troubleshooting AD-200 Reference Guide Base Section Section Improper and Dangerous Operation Suggested Cleaning Schedule CleaningAT 80 PSI 5.51 Bars Every 3 Months LubricationDays After Installation and Every 6 Months Thereafter AdjustmentsSpecifications GAS and Steam Models Specifications and DimensionsDimensions ENCLOSURE/AIR SUPPLY/EXHAUST Requirements Installation RequirementsElectrical and GAS Requirements Operational Service Check ProcedureDSI System COMPONENTS/FUNCTIONS Heat SectionJohnson DSI Control Module 225º F 107º C Thermostat Redundant Gas Valve First Visual Check Second Visual Check Third Visual Check Manometer DSI Ignitor GAP Feeler Gauge Troubleshooting the Direct Spark Ignition DSI SystemPage Page Page First Visual Check Second Visual Check Third Visual Check With a Flame GAP on the Ignitor/Flame-Probe Page Flash Green Continuously Page With a Flame GAP on the Ignitor/Flame-Probe Page Light RED Continuously Page Create a Potential Safety Hazard General Overview Steam Coil System OperationPage Page Page Page Sprinkler System Description MAN3488 Page Supplies Before Servicing the Dryer Page Page AIR JET Assembly Page Blower Squirrel Cage FAN Motor Assembly Page Page Important do not Overtighten V-BELTS Important do not Overtighten V-BELTS Page Page Regulator Operation FILTER/REGULATOR AssemblyDoor Systems Automatic Doors Page Page Page Control and Electrical System Ladder Diagram Page Page Page ºC + ºC + ºK Page Page Page Page Page Page Basket Tumbler System Page Result in Personal Injury Important do not Overtighten Turnbuckle Page Page Important do not Overtighten Turnbuckle Page Page Page Procedure for Functional Check Replacement Components Page Diagnostic L.E.D. Display Fault Messages Phase 7 OPL System DiagnosticsPage O Board Input and Output L.E.D. Indicators Inputs RED Outputs Green RHE PGR1 Green L.E.D OCL5 Green L.E.D Troubleshooting Drive motor is not operating does not start Failed microprocessor controller computer I/O board Page Page Dryer operates but is taking too long to dry Excessive noise and vibration ADC 450034 1- 08/29/01-25

AD-200 specifications

The ADC AD-200 is a high-performance analog-to-digital converter designed to meet the needs of a wide range of applications including industrial automation, instrumentation, medical devices, and consumer electronics. This converter is renowned for its combination of speed, precision, and reliability.

One of the standout features of the ADC AD-200 is its exceptional resolution. Offering up to 24 bits of resolution, it provides an outstanding level of detail and accuracy in signal conversion. This high resolution makes it ideal for applications where precision is paramount, such as in audio processing and sensitive measurements in scientific research.

The AD-200 operates at a maximum sampling rate of 1 Msps (mega-samples per second), allowing it to effectively capture fast-changing signals. This speed ensures that the converter can handle dynamic input signals without missing critical data points. Additionally, the device employs a pipelined architecture, which helps to maintain high throughput while keeping latency low—an essential characteristic for real-time applications.

Another critical aspect of the AD-200 is its low input noise and distortion levels. With a total harmonic distortion (THD) of less than 0.01%, the converter maintains signal integrity even when processing high-frequency signals. This feature is crucial in audio and instrumentation applications where signal clarity and fidelity are necessary.

The ADC AD-200 is equipped with advanced digital signal processing (DSP) capabilities, allowing users to perform filtering, averaging, and other signal conditioning tasks on the incoming data stream. This built-in processing capability means users can reduce the load on external processors, streamlining system designs and improving overall efficiency.

The device supports various input voltage ranges, which makes it versatile for multiple applications. It is compatible with single-ended and differential input configurations, providing flexibility for different circuit designs and requirements.

Connectivity features include both serial and parallel interfaces, offering easy integration into various systems. The ADC also comes with a robust software development kit (SDK) that provides necessary drivers and support to facilitate quicker implementation and system optimization.

In summary, the ADC AD-200 is a versatile, high-performance analog-to-digital converter marked by its high resolution, fast sampling rate, low noise levels, integrated DSP capabilities, and flexible connectivity options. These features make it a preferred choice for engineers and developers aiming for excellence in signal processing tasks across diverse industries.
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