Description
Parameters
| Parameter | Specification |
|---|---|
| Brand | GE (General Electric) |
| Model | DS200AAHAG2A |
| Series | Mark V Turbine Control |
| Type | Analog I/O Board |
| Suffix Revision | A (base revision) |
| Analog Input Channels | Typically 8 differential (voltage/current) + 8 dedicated thermocouple/RTD inputs |
| Analog Output Channels | 8 (voltage or current, jumper selectable) |
| Input Signal Types (Voltage/Current) | ±10V, 0–10V, 0–20 mA, 4–20 mA |
| Input Signal Types (TC/RTD) | J, K, T, E, S thermocouples; 100Ω Pt RTD (2/3/4-wire) |
| Output Signal Types | ±10V, 0–10V, 0–20 mA, 4–20 mA |
| Resolution | 14-bit (inputs), 12-bit (outputs) |
| Input Impedance | Voltage: >1 MΩ, Current: 250Ω, TC: >10 MΩ |
| Accuracy | ±0.1% of full scale @ 25°C (inputs), ±0.2% (outputs) |
| Isolation | 1500V RMS channel-to-backplane, 500V DC channel-to-channel |
| Sampling Rate | 50 Hz per channel (aggregate) |
| Power Requirements | +5V DC @ 1.5A, ±15V DC @ 0.4A from backplane |
| Operating Temperature | 0°C to 60°C |
| Storage Temperature | -40°C to 85°C |
| Connectors | 1x 24-pin backplane connector, 2x 50-pin D-sub (field I/O) |
| LED Indicators | Power (green), Active (yellow), Fault (red), Channel Overrange (orange per bank) |
| Dimensions | 9.2″ x 5.5″ x 1.2″ (233mm x 140mm x 30mm) |
Advantages and Features
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Dedicated Thermocouple Input Section – The GE DS200AAHAG2A provides 8 dedicated thermocouple/RTD inputs with onboard cold junction compensation (CJC), separate from the 8 universal analog inputs, simplifying wiring for turbine exhaust monitoring.
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Higher Output Density – With 8 analog outputs, the GE DS200AAHAG2A offers twice the output channels of the AAHAG1 series, ideal for applications requiring multiple valve or actuator controls.
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14-Bit Input Resolution – Higher resolution than the 12-bit AAHAG1 variants, providing more precise measurements for critical parameters like bearing vibration and differential pressure.
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Diagnostic Feedback – The GE DS200AAHAG2A supports software-readable diagnostics including open thermocouple detection, input overrange, and output load monitoring.
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Jumper Configurable – All input and output types are selectable via physical jumpers and DIP switches, requiring no additional programming tools.
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Hot Swap Prevention Design – Mechanical keying on the backplane connector prevents insertion into the wrong slot, reducing installation errors.
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Legacy Stability – The GE DS200AAHAG2A has thousands of field-proven operating hours in power generation and industrial turbine applications.
Application Cases and Fields
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Gas Turbine Exhaust Temperature Monitoring – The GE DS200AAHAG2A reads 8 K-type thermocouples from exhaust baskets while simultaneously accepting 4–20 mA signals from flame detectors and pressure switches.
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Steam Turbine Valve Control – Outputs 8 separate 4–20 mA signals to I/P converters controlling steam admission valves, extraction valves, and bypass valves from a single board.
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Generator Condition Monitoring – The GE DS200AAHAG2A reads RTD inputs from generator stator windings (6 channels) and outputs to a remote monitoring system via 4–20 mA retransmission.
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Compressor Anti-Surge Control – Monitors differential pressure (4–20 mA) and suction temperature (RTD) while outputting to the anti-surge valve positioner.
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Combined Cycle Heat Recovery – Deployed in HRSG applications monitoring feedwater flow (4–20 mA), steam temperature (thermocouple), and drum level (RTD) simultaneously on the GE DS200AAHAG2A.
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Hydro Turbine Governor Systems – Used in hydroelectric plants where the Mark V controls wicket gates and requires multiple analog feedbacks and outputs.
Comparison with Competing Products
| Feature | GE DS200AAHAG2A | GE DS200AAHAG1AD | Woodward 8440-2150 | Siemens 6ES7332-5HD01 |
|---|---|---|---|---|
| Target System | GE Mark V | GE Mark V | Woodward NetCon | Siemens S7-300 |
| Analog Inputs | 16 total (8 universal + 8 TC/RTD) | 8–16 (mixed) | 8 universal | 8 universal |
| Analog Outputs | 8 | 4–8 | 4 | 4 |
| Resolution (Input) | 14-bit | 12-bit | 16-bit | 14-bit |
| Dedicated TC Inputs | Yes (8) | No (shared) | No | No |
| Onboard CJC | Yes | Yes | External | External |
| Operating Temp | 0°C to 60°C | -20°C to 65°C (C suffix) | 0°C to 60°C | 0°C to 60°C |
| Spare Availability | Moderate (less common) | Good | Limited | Good (newer platform) |
| Typical Refurb Price | $1000–1800 | $800–1500 | $1400–2200 | $600–1200 |
Verdict: The GE DS200AAHAG2A is the superior choice when your Mark V application requires 8 analog outputs or dedicated thermocouple inputs. For general-purpose mixed I/O with fewer outputs, the AAHAG1 series may be more cost-effective. Competitors are not physically compatible with the Mark V backplane.
Selection Suggestions
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Verify Output Channel Requirements – If your application needs 5–8 analog outputs, the GE DS200AAHAG2A is the correct choice. For 4 or fewer outputs, consider the DS200AAHAG1 series to reduce spare part costs.
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Check Thermocouple Count – The GE DS200AAHAG2A is ideal when you have 4 or more thermocouples. For fewer than 4, a universal board with shared inputs may suffice.
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Confirm Rack Slot Compatibility – The GE DS200AAHAG2A requires a slot with sufficient backplane bandwidth. Consult your Mark V rack manual (GEH-5985) for slot assignment guidelines.
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Termination Board Matching – Use the GE DS200AAHAG2A with the following recommended termination boards:
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DS200TCT1 – Standard termination for mixed signals
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DS200TCCA – Cold junction compensation optimized for thermocouples
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DS200TCRA – Relay-assisted termination for high-voltage isolation
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Sourcing Strategy – The GE DS200AAHAG2A is less common than AAHAG1 variants. When sourcing refurbished units:
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Request test reports showing all 16 inputs and 8 outputs verified
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Confirm firmware revision matches your existing Mark V system
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Prefer suppliers offering a 1-year warranty
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Spare Stock – For critical turbines, keep one spare GE DS200AAHAG2A on site. For plants with multiple Mark V systems using this variant, maintain a ratio of 1 spare per 3 active boards.
Precautions
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Power Down Required – Never insert or remove the GE DS200AAHAG2A while the Mark V rack is powered. Backplane damage or personal injury may occur from exposed voltages.
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Electrostatic Discharge (ESD) Control – The GE DS200AAHAG2A contains sensitive CMOS components. Always use a grounded antistatic wrist strap and conductive work surface when handling the board.
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Thermocouple Grounding – Ensure thermocouples connected to the GE DS200AAHAG2A are properly isolated from ground loops. Grounded thermocouple junctions can introduce measurement errors or damage input circuits.
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Output Load Limits – Each analog output on the GE DS200AAHAG2A can drive a maximum load of 750Ω for current outputs (4–20 mA) or minimum 2kΩ for voltage outputs. Exceeding these limits may damage the output driver.
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No Hot Swapping – The Mark V architecture does not support hot swapping. Attempting to install or remove the GE DS200AAHAG2A with power applied can destroy both the board and the backplane interface.
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Firmware Compatibility – Mixing the GE DS200AAHAG2A with other DS200 boards of different families may require a backplane firmware update. Consult GE documentation before combining board types.
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Calibration Schedule – Recalibrate the GE DS200AAHAG2A annually for mission-critical applications, or every 24 months for general use. Use the calibration procedure in GE manual GEH-5985.
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Environmental Restrictions – Do not expose the GE DS200AAHAG2A to condensing humidity, corrosive gases (H₂S, SO₂, Cl₂), or conductive dust. If required, specify conformal coating at time of purchase.
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Wiring Verification – Before powering up, double-check field wiring against the termination board pinout. Applying 120V AC to any analog input on the GE DS200AAHAG2A will permanently destroy that channel.
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Manual Reference – Keep the following manuals accessible:
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GEH-5985 – Mark V I/O Subsystem Manual
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GEI-100683 – DS200AAHAG Series Addendum
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GEK-119613 – Mark V Turbine Control Application Guide
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