ADC ML-122 FAN Blower Output L.E.D. Indicator, AIR AIR JET Output L.E.D. Indicator Optional

Page 21

L.E.D. Display Indicator Number 4

On Indicator: This indicator dot is on whenever a cycle is in progress. Additionally, when the Anti-Wrinkle program is active, the indicator dot will be on whenever the Phase 6 OPL microprocessor controller (computer) is in the Guard On Time program.

L.E.D. Display Indicator Number 5

Air Jet Circuit – OPTIONAL: This indicator dot is on at the end of the dryer cycle for approximately 60-seconds.

Phase 6 OPL Microprocessor Controller (Computer) Relay Output L.E.D. Indicators

There are a series of 5 L.E.D. indicators (ORANGE LIGHTS) located at the backside of the Phase 6 OPL microprocessor controller (computer). These are identified or labeled (from top to bottom in the illustration below as: FAN-BLOWER, FOR-FORWARD, REV-REVERSE, AIR-AIR-JET, HT1-HEAT OUTPUT. There are a series of 7 L.E.D. indicators (red lights) FUSE-MAIN FUSE, LINT-LINT DOOR, MAIN-MAIN DOOR, DRUM-TUMBLER HI-LIMIT, SAIL-SAIL SWITCH, BURN-BURNER HI-LIMIT, FLAME-FLAME PROBE). The L.E.D. in the center of the board (red light) indicates power supplied to the Phase 6 OPL microprocessor controller (computer). These L.E.D.’s indicate the inputs and outputs of the Phase 6 OPL microprocessor (computer) as it monitors the safety circuits.

“FAN” (BLOWER) Output L.E.D. Indicator

If the dryer is started and the blower motor is not operating, yet the Phase 6 OPL microprocessor controller (computer) display fan indicator dot and power supply input L.E.D. are on, but the fan output L.E.D. is off, then the fault is the Phase 6 OPL microprocessor controller (computer) itself.

If the motor is not operating. The fan indicator dot and output L.E.D. are also on, then the problem (fault) is elsewhere (i.e., external of the Phase 6 OPL microprocessor controller [computer]).

“FOR” (FORWARD) Output L.E.D. Indicator (for optional reversing model ONLY)

If the dryer is started and the blower motor is operating, but the drive (tumbler) motor is not, yet the Phase 6 OPL microprocessor controller (computer) display “FORWARD” indicator dot is on, the “FOR” (FORWARD) motor output L.E.D. is off; then the fault is the Phase 6 OPL microprocessor controller (computer) itself.

If the drive tumbler motor is not operating and the forward indicator dot and output L.E.D. is on; then the problem (fault) is elsewhere (i.e., external of the Phase 6 OPL microprocessor controller [computer]).

“REV” (REVERSE) Output L.E.D. Indicator (for optional reversing models ONLY)

If the dryer is started and the blower motor is operating but the drive tumbler motor is not, yet the Phase 6 OPL microprocessor controller (computer) displays “REVERSE” indicator dot is on but the “REV” (REVERSE) motor output L.E.D. is off; then the fault is of the Phase 6 OPL microprocessor controller (computer) itself.

If the drive tumbler motor is not operating and reverse indicator dot and output L.E.D. is on; then the problem (fault) is elsewhere (i.e., external of the Phase 6 OPL microprocessor controller [computer]).

“AIR” (AIR JET) Output L.E.D. Indicator – OPTIONAL

“AIR” is on with the display dot at the end of the dry cycle once the display reads “dONE,” it is on for approximately 60-seconds and the output L.E.D. indicator and the display dot go out. If the air jet does not energize it is not the fault of the Phase 6 OPL microprocessor controller (computer). If the output L.E.D. or dot do not go on it is the fault of the Phase 6 OPL microprocessor controller (computer).

“HT1” (HEAT) Output L.E.D. Indicator

If the dryer is started and there is “No Heat” yet the Phase 6 OPL microprocessor controller (computer) display heat circuit indicator dot is on, but the “HT1” output L.E.D. indicator is off; then the fault is in the Phase 6 OPL microprocessor controller (computer) itself.

If the dryer is started and there is “No Heat” yet both the Phase 6 OPL microprocessor controller (computer) display indicator dots and the “HT1” output L.E.D. indicator are on; then the problem (fault) is elsewhere (i.e., external of the Phase 6 OPL microprocessor controller [computer]).

“FUSE” (MAIN FUSE) Input L.E.D. Indicator

Should be on all the time (even if the dryer is not running). If the L.E.D. is not on; then the display will read “CHECK MAIN FUSE.” If the main fuse is good then the fault is on the Phase 6 microprocessor controller (computer).

“LINT” (LINT DOOR) Input L.E.D. Indicator

Should be on all the time (unless the lint door is opened then the “LINT” L.E.D. indicator will go out).

450412 - 4

www.amdry.com

21

Page 20 Page 22
Image 21
Page 20 Page 22
Contents ML-96 / ML-122 Serial Numbers Model noTable of Contents Safety Precautions Routine MaintenanceCleaning Important InformationInstallation Requirements Description of Parts Operational Service Check ProcedureElectrical and Gas Requirements Control Panel MicroprocessorReversing Relay Panel Gas Burner AssemblySteam Coil and Damper System Steam Coil pH LevelIdler Shaft Assembly Drive Shaft AssemblyMain Door Switch Sail Switch Gas Models OnlyServicing Gas Valve Replacement Microprocessor Temperature Sensor Probe ReplacementBrushing on a soapy water solution Main Burner Orifices ReplacementIgnition Module Replacement Burner Tubes ReplacementThermostats To Convert Natural Gas to L.P. GasSteam Damper Actuator System Service and Replacement Sail Switch Assembly Gas Models OnlyMay be needed to remove and install the steam coil Steam Coil ReplacementMain Door Switch Replacement Front Panel and Main Door AssembliesFront Panel Replacement Drive Motor Pulley ReplacementTumbler Wheel Replacement on Drive Assembly Tumbler Wheel Replacement on Idler AssemblyBasket Assembly Adjustment Inch Support Wheel Replacement 15/16 5 cm Flange Bearing ReplacementRotational Sensor Assembly Idler Shaft Pillow Block Bearing ReplacementMotorized Impellor Blower Replacement Belt Adjustment Motor to Drive AxleDrive Motor V-Belts Replacement Drive Motor ReplacementTroubleshooting Burner hi-limit safety thermostat Is tripping Phase 6 OPL System DiagnosticsDiagnostic L.E.D. Display Failure Codes Overload for impellor fan motor Is trippingD. Display Indicator Number D. Display IndicatorsAIR AIR JET Output L.E.D. Indicator Optional FAN Blower Output L.E.D. IndicatorHT1 Heat Output L.E.D. Indicator Fuse Main Fuse Input L.E.D. IndicatorDiagnostic L.E.D. Display Fault Messages Phase 7 OPL System DiagnosticsData Label Input/Output Board L.E.D. IndicatorsInputs OutputsHow to Use a Manometer 450412 ADC Part No 4 01/02/08
Related manuals
Manual 59 pages 3.4 Kb

ML-96, ML-122 specifications

The ADC ML-122 and ML-96 are two advanced communication devices designed for efficient data collection and transmission in various applications. Both models are renowned for their robust performance and user-friendly features, which cater to a diverse range of industries.

The ADC ML-122 is a high-performance data logger that excels in multi-channel monitoring. It supports various input types, making it versatile for applications such as environmental monitoring, industrial process control, and research. One of its standout features is its ability to accommodate both analog and digital signals, allowing users to gather a wealth of data from different sources. The device supports a wide temperature range, ensuring reliability in diverse environmental conditions. Moreover, its built-in memory can store extensive data logs, which are easily downloadable for analysis.

On the other hand, the ADC ML-96 is designed primarily for telecommunication and network monitoring. It features advanced signal processing technologies that allow it to analyze and troubleshoot communication lines efficiently. The device is equipped with real-time monitoring capabilities, enabling users to detect issues as they arise, which is crucial in maintaining network integrity. The ML-96's compact design makes it an ideal choice for installation in tight spaces without sacrificing performance.

Both models are built with cutting-edge technologies that enhance their functionality. They integrate wireless communication protocols, such as Wi-Fi and Bluetooth, enabling seamless connectivity to cloud services for data backup and remote access. This feature empowers users to monitor conditions from anywhere, ensuring that critical information is always at hand.

The user interface for both the ML-122 and ML-96 is designed for ease of use. Equipped with a clear display and intuitive controls, users can navigate through settings and view data with minimal training. The devices also offer customizable alerts that notify users of any anomalies, adding an additional layer of security and responsiveness.

In terms of power management, both models utilize energy-efficient components, allowing for extended battery life. This is particularly advantageous in remote sensing applications where power sources may be limited. Furthermore, the ability to integrate with other systems makes these models adaptable to various operational needs.

In conclusion, the ADC ML-122 and ML-96 stand out in their respective markets due to their innovative features, reliable technologies, and user-friendly designs. With their flexibility and performance, they continue to set the standard for data logging and communication monitoring technologies.
Top Page Image Contents