Mislier is proud to announce the official market launch of the AMQ800 Smart Booster Pump - a fully integrated water supply system combining a pump, motor, pressure tank, and electronic controller in a single compact unit. Designed to pressurize clean, impurity-free water, the AMQ800 delivers stable and consistent water pressure for residential and commercial applications including rooftop pressurization, water tower boosting, and pipeline pressure enhancement.
The AMQ800 pump body is manufactured using the TQ_B series antibacterial engineering plastic infused with silver ions. Silver ions penetrate and disrupt bacterial cell structures, inhibiting microbial reproduction and ensuring superior water hygiene - a key differentiator for distributors targeting health-conscious markets.
As the flagship B2B product in the Mislier lineup, the AMQ800 features an intelligent electronic controller, an intuitive digital display, and multiple built-in protection mechanisms - reducing installation complexity and post-sale service costs for distributors and system integrators.
Technical Specifications
| Parameter | Specification |
|---|---|
| Voltage | 220V ± 20% |
| Frequency | 50/60Hz |
| Rated Power | 550W |
| Rated Flow Rate | 3 m³/h |
| Maximum Flow Rate | 5 m³/h |
| Rated Head | 28m |
| Maximum Head | 45m |
| Maximum Suction Distance | 8m |
| Maximum Speed | 5000 ± 200 r/min |
| Maximum Current | 3.4A |
| Maximum System Pressure | 1MPa |
| Working Pressure | Max. 8.5 kg/cm² |
| Liquid Temperature | +2°C ~ +40°C |
| Max. Fluid Temperature | 80°C |
| Max. Ambient Temperature | 55°C |
| Protection Level | IPX5 |
| Insulation Class | F |
| Relative Humidity | Max. 85% (RH) |
| Unit Dimensions | 437mm × 332mm × 202mm |
Application Scenarios
🏠 Water Tower Boosting (Max. 4 bar)
Ideal for residential rooftop water tank installations where low pressure on upper floors is a common issue. Recommended set pressure: up to 4 bar.
🏗️ Well/Groundwater Boosting (Max. 3 bar)
Suitable for applications drawing from underground wells or areas with unstable municipal supply. Maximum set pressure: 3 bar. Use with inlet pipeline filter for best results.
🚿 Inline Pipeline Boosting (Max. 5.5 bar)
Designed for multi-story buildings and commercial premises requiring higher outlet pressure. Adjustable up to 5.5 bar, significantly improving shower, water heater, and appliance performance.
Installation & Startup Guide (Distributor / Installer Reference)
Step 1 - Site Preparation
- Site Selection & Environment
Choose a dry, well-ventilated installation site with sufficient clearance for maintenance. The motor hood must beat least 25 cm from any wallto ensure adequate heat dissipation and allow pressure switch adjustment. For indoor installations, ensure drainage holes are unobstructed. Never install near carpets, ceilings, or electrical equipment. Outdoor installations require a weatherproof rain cover.
- Level Mounting
Secure the base firmly and ensure the pump base is level with the ground to prevent vibration and abnormal operation.
- Proximity to Water Source
Install the pump as close to the water source as possible. Excessively long suction pipes reduce hydraulic efficiency.
Step 2 - Water Priming & Startup
- Open the water injection bolt (counterclockwise)
Inject clean water into the tank until it reaches the neck water level line.
- Tighten the injection bolt (clockwise)
Ensure a watertight seal, then flip the circuit breaker to 1/On to connect power.
- 3-second delay on power-on
The system automatically delays startup by 3 seconds after power is connected. The control panel indicator lights will activate as shown in the manual.
- Press the "Switch" button briefly (1 second)
The pump starts running. Normal water output should be achieved within 5 minutes under standard conditions.
⚠️ Warning: Use only clean water in the tank - no other liquids. Never operate without water. Water temperature during operation must not exceed 40°C.
Step 3 - Inlet Pipeline Installation
- Avoid soft rubber pipes
Do not use excessively soft rubber hoses for the inlet pipeline to prevent flattening and flow restriction.
- Bottom valve positioning
Install the bottom valve vertically, at least 30 cm above the sediment layer at the bottom of the water source to prevent sediment intake.
- Pipe diameter requirements
The inlet pipe diameter must be at least equal to the pump inlet diameter. If the inlet pipe exceeds 10 meters in length or requires a lift greater than 4 meters, the inlet pipe diameter must be larger than the pump inlet port.
- Sealing & bends
All inlet connections must be fully sealed. Minimize bends and elbows to reduce resistance and ensure reliable suction.
- Outlet pipeline
Use metal pipes for the outlet to prevent rupture from high pressure or elevated temperatures. Match the outlet pipe diameter to the pump outlet to minimize noise and pipe loss.
Step 4 - Pressure Adjustment
In automatic mode, use the "+" (up) and "−" (down) buttons on the control panel to adjust the operating pressure. The adjustable range is 15 to 55 meters. The digital display simultaneously shows the set pressure and the current operating pressure for real-time monitoring.
To restore factory settings and display the firmware version number, press and hold both "+" and "−" simultaneously for 1.5 seconds.
Tip: Increasing the set pressure raises the operating pressure and pump speed - suitable for multi-floor buildings or high-demand applications. Lowering the pressure improves energy efficiency and extends equipment service life.
Error Code Reference
The AMQ800 features an integrated self-diagnostics system. When an error code appears on the panel, refer to the table below for rapid troubleshooting:
| Code | Fault | Solution |
|---|---|---|
| E.01 | Phase loss | Check that the motor wiring is properly connected. |
| E.02 | Overcurrent | Power off and restart. If unresolved, may indicate pump motor or controller failure - try replacing the controller. |
| E.03 | Driver out of sync / control failure | Power off and restart. If unresolved, try replacing the controller. |
| E.04 | Communication failure | Check the panel-to-motherboard communication cable connections. |
| E.06 | Pressure sensor failure | Check if the pressure sensing interface is loose. If not, replace the pressure sensor. |
| E.07 | Flow sensor failure | Check if the flow switch interface is loose. If not, replace the flow switch. |
| E.11 | Abnormal supply voltage | Verify output voltage and check power cord connection. Controller will auto-restart the pump if no issue found. |
| E.12 | Locked rotor protection | Check if motor is stuck and wiring is correct. If no issue found, controller will restart the pump. |
| E.13 | Pipeline leakage warning | When motor stops, check if pressure drops. If yes, inspect water pipes and the check valve for contamination. |
| E.14 | Inlet water shortage | Inspect the water inlet pipeline - ensure sufficient water supply. |
| E.15 | Overheat protection | Allow the pump to cool down completely, then restart. |
| E.16 | Driver board overheating | Wait for driver temperature to drop (auto-resumes), or relocate pump to a cooler, ventilated area. |
| E.17 | IPM temperature sensor failure | Sensor wiring is loose - reconnect securely. |
| E.18 | High water temperature | Shut down the pump and check - water temperature is overheated. |
| E.19 | Low water temperature | Pump runs at low speed - check if water temperature is too low. |
| E.20 | Water temperature sensor failure | Check that the water temperature sensor is properly connected. |
Partner With Us
The AMQ800 is now open for global distributor partnerships, wholesale inquiries, and OEM/ODM customization. Contact the Mislier team for pricing, technical support, and partnership agreements.