Mido MD202 Control Box for Burner Controller — Industrial Burner Management Module
Mido · MD202 · Burner Sequence Controller · In Stock
The Mido MD202 is an industrial burner management control box used to sequence and supervise gas, oil and dual-fuel burners on packaged boilers, hot oil heaters, kiln burners and process heat treatment furnaces. It bundles pre-purge timing, pilot ignition, main flame proving, modulation hand-off and post-purge logic into a single plug-style chassis, paired with a flame safeguard input (UV cell or ionization probe) and a hard-wired lockout / alarm relay. KOEED stocks the MD202 alongside cross-reference units from Siemens LFL and Honeywell S7800 flame safeguard families, so plant maintenance teams can keep legacy and current burner panels running without re-engineering the wiring loom. Send a model list to Moritta@KOEED.COM for stock confirmation within 24 business hours.
Key Technical Specifications / Overview
The MD202 chassis hosts the complete sequence engine and hard-wired safety interlocks for a single-burner panel. Below is a ledger-style spec sheet collated from common Mido data and adjacent burner-controller families ( browse all collections for related controls ). Final acceptance values should always be cross-checked against the unit nameplate before commissioning.
| Brand |
Mido (industrial burner controls) |
| Part Number |
MD202 |
| Module Type |
Burner Sequence Controller / Control Box (Flame Safeguard Chassis) |
| Fuel Compatibility |
Natural gas, LPG, light / heavy fuel oil, dual-fuel burners |
| Supply Voltage |
110 / 230 V AC, 50 / 60 Hz mains; 24 V DC sensor / interlock loop |
| Flame Supervision |
UV cell input or ionization probe (rectification); typical response < 1 s |
| Sequence Stages |
Stand-by → pre-purge → pilot ignition → main flame establishment → modulation → post-purge → lockout |
| Outputs |
Ignition transformer, pilot solenoid, main fuel valve, air damper actuator, alarm / lockout relay |
| Protection / Reset |
Hard-wired lockout on flame failure, air pressure fault or valve proving fault; manual reset push-button on chassis face |
| Mounting |
Plug-in / screw-mount chassis with multi-pin sub-base, panel or burner-yoke install |
| Ambient |
-20°C to +60°C operating; IP40 chassis (requires panel enclosure for IP55+) |
| Cross-reference |
Functionally adjacent to Honeywell S7800, Siemens LFL / LME, Fireye and Brahma sequence controllers |
| Stock Status |
In stock — quote within 24 hours at Moritta@KOEED.COM
|
Application Scenarios / Where It Fits
The MD202 sits inside any panel that asks for deterministic burner sequencing with hard-wired flame safety, so it shows up across heavy and light process industries. Typical deployments observed by KOEED engineers:
- Industrial steam and hot-water packaged boilers (firetube and watertube) on food, beverage and pharma sites
- Thermal oil heaters serving asphalt, bitumen and chemical reactor jackets
- Drying ovens, paint cure ovens and powder-coat tunnels in metal-finishing lines
- Kiln burners on lime, ceramic and refractory plants
- Heat-treatment furnaces (annealing, tempering, normalizing) wired into a Siemens SIMATIC or Allen-Bradley ControlLogix supervisory PLC
- Asphalt-plant and grain-dryer burners that must restart unattended in cold ambient
- CIP / sterilization steam skids in food processing plants
Across these sectors the MD202 is most often retrofitted onto an existing panel where the original burner controller (often a discontinued Honeywell, Siemens LFL or Brahma module) is no longer supplied. KOEED keeps adjacent multi-brand stock — Mitsubishi and Omron PLC cards, Schneider Modicon safety relays, Yaskawa drive spares for combustion-air fans, KEYENCE flame-front photoelectric sensors and Panasonic FP mini-PLCs — so a single BOM can refit the burner panel in one shipment.
Integration & Wiring Notes
The MD202 is wired into the panel through its multi-pin sub-base, not directly to terminal strips on the chassis face. Treat it as a plug-replaceable module: keep all field wiring on the sub-base and the controller becomes a single-screwdriver swap-out during fault finding. A few integration rules of thumb when adopting MD202 in an existing burner panel:
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Permissive chain: high / low gas pressure switches, air-proving switch, high limit and operating thermostat must all be wired into the start permissive — the MD202 does not start the sequence until that chain is closed.
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Flame probe routing: route the UV / ionization cable in its own conduit, separated from ignition transformer leads, to avoid pickup that masks a true flame-failure event.
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Ignition transformer: the MD202 ignition output drives a step-up transformer (typically 6–10 kV) — keep secondary leads short and use a clean earth path back to the burner body.
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Valve proving: for dual-fuel and larger gas burners, the valve-proving system (VPS) interlock should drop into the MD202 lockout circuit, not into the main fuel-valve coil.
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PLC supervision: the alarm / lockout relay maps cleanly into a DI on Allen-Bradley 1756 / 1769, Siemens S7-1200 / S7-1500, Mitsubishi MELSEC FX / Q or Omron CP1 / CJ2 input cards for SCADA alarming.
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Drive interaction: if combustion-air fan speed is governed by a Schneider Altivar or Yaskawa Varispeed drive, anchor the run command to the MD202 air-proving stage — never let the drive coast through a lockout.
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CNC / robotics adjacent lines: for furnaces inside Fanuc robotic heat-treat cells, hand-shake the MD202 alarm relay into the cell-controller emergency-stop string.
When in doubt, send the existing panel drawing and burner data plate to Moritta@KOEED.COM together with the BOM — the KOEED engineering desk will mark up the pin-out equivalence against the controller you are replacing.
Installation & Commissioning Tips
Burner-control commissioning is governed by site combustion-safety procedure first and any controller manual second. The notes below are practical only; do not bypass site sign-off.
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Bench-test the chassis off the panel: apply mains, observe the sequence LEDs / cam, verify the unit reaches and holds stand-by without inputs.
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Insulation test before plug-in: isolate the MD202 from the sub-base before any megger test on the panel — controller electronics will not survive a megohm injection.
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Dry-run the sequence with the fuel train manually isolated. Confirm pre-purge time, ignition timing and the safety lockout time match the burner OEM data.
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Flame failure test: with the burner alight, mechanically interrupt the flame at the probe (or remove the cell) and confirm the MD202 drops the fuel valve inside the rated safety time.
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Lockout reset: verify the manual reset push-button releases lockout only after the cause is cleared — auto-reset is not acceptable on combustion equipment.
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Document the cam / time settings on the panel itself so the next maintenance shift inherits the same baseline.
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Diagnostic helpers: the KOEED AI Diagnostic Tool can decode nameplate photos and propose like-for-like replacements; the PLC Error Code Database covers downstream SIMATIC / MELSEC alarms tied to the burner DI; engineers tuning 4–20 mA flame-trim signals may also use the PLC Analog Calculator.
Procurement, Warranty & Lead Time
KOEED operates as an independent multi-brand sourcing house from a Shenzhen / Hong Kong base, not as an authorised arm of any burner-controller OEM. The MD202 is supplied through KOEED's China Sourcing Company workflow alongside cross-reference parts from Honeywell, Siemens LFL / LME, Fireye and Brahma, with documented inbound QC before international dispatch. Engineers typically place an MD202 enquiry as part of a wider BOM that mixes Mido sequence controllers with Allen-Bradley, Siemens, Mitsubishi, Omron, Fanuc, Schneider, Yaskawa, Panasonic and KEYENCE spares — one PO, one airway bill.
Pricing is RFQ-driven and final values are confirmed only on the official quotation. To get a current MD202 quote with availability, lead time and freight options:
Need a Mido MD202 or a full burner-panel BOM?
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> Need to verify Modbus framing on the supervisory PLC?
Use the KOEED free online toolset to validate alarm-relay scanning and serial-link CRC values before site sign-off.
Open the Modbus CRC Calculator
