Mitsubishi Electronics MSZ-ANA, MS-AWA, MUZ-ANA Inverter System Control, Function of main parts

Page 12

2-7. INVERTER SYSTEM CONTROL

2-7-1. MUZ-A09/12/15/17 MUY-A15/A17

2-7-1-1. Inverter main power supply circuit

POWER P.C. BOARD

INVERTER P.C. BOARD

L62

L63

L61

 

 

DB61

U

 

Power

R64A R64B

 

 

supply

C63A P

CT761

 

+ C63B

V

 

X64

C63C

 

 

N

 

 

CT

 

W

 

 

 

IPM

CT781

 

 

 

 

 

TR821

 

 

 

 

DB65

 

 

 

 

Booster chopper circucuit

 

 

W

MC

U

V

Function of main parts

SYMBOL

NAME

 

FUNCTION

IPM

INTELLIGENT POWER MODULE

It supplies three-phase AC power to compressor.

 

 

 

 

C63A/C63B/C63C

SMOOTHING CAPACITOR

It stabilizes the DC voltage.

CT761/CT781

CURRENT TRANSFORMER

It measures the current of the compressor motor.

CT

CURRENT TRANSFORMER

It measures the value of current which is supplied to the main power

supply circuit.

 

 

 

 

 

 

DB61

DIODE MODULE

It converts the AC voltage to DC voltage.

 

 

 

 

R64A, R64B

CURRENT-LIMITING RESISTOR

It absorbs the rush current not to run into the main power supply circuit

when the electricity turns ON.

 

 

 

 

 

 

X64

RELAY

It short-circuits the resistance which restricts rush current during the

normal operation after the compressor startup.

 

 

 

 

 

 

DB65

DIODE MODULE

Booster

It improves power factor.

 

 

 

TR821

SWITCHING POWER TRANSISTOR

chopper

It rectifies AC and controls its voltage.

 

 

circuit

L61

REACTOR

 

2-7-1-2. Outline of main power supply circuit

1.At the start of operation

Main power supply circuit is formed when X64 (Relay) is turned ON at compressor startup. To prevent rush current from running into the circuit when power supply is turned ON, R64A and R64B (Current-limitting resistor) are placed in sub circuit.

2.At normal operation

1 When AC runs into POWER P.C. board, its external noise is eliminated in the noise filter circuit.

2 After noise is eliminated from AC, it is rectified to DC by DB61 (Diode module).

3 DC voltage, to which AC has been rectified by process 2, is stabilized by C63A, C63B and C63C (Smoothing capacitor) and supplied to IPM (Intelligent power module).

4 DC voltage, which has been stabilized in process 3, is converted to three-phase AC by IPM and supplied to compressor.

5 CT761 and CT781 (Current Transformer), which are placed in the power supply circuit to compressor, are used to measure the value of phase current and locate the polar direction of rotor with algorithm. PWM (Pulse width modulation) controls impressed voltage and frequency with those information.

12

Image 12
Contents Service Technical Guide Discharge Temperature Protection Control ·····BACK Operational Frequency Control of Outdoor UNIT······16Indoor unit models Outdoor unit models Indoor unit modelsOperation chart ExampleON OperationThermostat control Indoor fan speed controlWhen the room temperature is under 73F Operation time chart ExampleOFF Onon Indoor fanAuto Vane Operation Horizontal vaneCoil frost prevention Temperature control Low outside temperature operationDifference between room Coil frost prevention is as same as Cool mode Low outside temperature operation is as same as Cool modeOperation MSZ Cold air prevention control MSZ-A09/12/15/17Overload starting DefrostingAuto Change Over ···AUTO Mode Operation MSZ Mode selectionOutdoor FAN Motor Control CoolHeat MUZ Horizontal blow time Inverter System Control Function of main partsAt normal operation Outline of simple partial switching method Intelligent power moduleMUZ-A24 MUY-A24 Inverter main power supply circuit Purpose of PAM adoptionPFC Power Factor Controller Power factor improvementPower transistor module Sine wave control Control Method of Rotation TimesOperational Frequency Control of Outdoor Unit Cool Heatmuz DRYCool · DRY Mode Heat Mode MUZExpansion Valve Control LEV Control LEV is fixed to standard opening degree according to operaTime chart MUZ-A09/12/15/17/24 MUY-A15/17/24Degree LEV130/100 190/130 240/170 260/210 260/230 MXZ Microprocessor Control Power factor improvement Temperature is included in standard opening. w1 With discharge temperature was added to basic opening. w1Opening before stop 500 pulse in 15 minutes Cool 5 pulse full closedHeat MXZ-2ACool Heat MXZ-3AMXZ-2A MXZ-3ACool DRY Heat Discharge temperature ˚F Correction pulse More than Target discharge temperature+18More than Target discharge temperature+21.6 Superheat LEV openingOperational Frequency Range Discharge Temperature Protection Control Heat Defrosting ControlOutdoor FAN Control 40Hz
Related manuals
Manual 32 pages 53.72 Kb

MUY-ANA, MSY-ANA, MS-AWA, MUZ-ANA, MXZ-ANA specifications

Mitsubishi Electronics has long been a leader in the HVAC (heating, ventilation, and air conditioning) industry, consistently delivering cutting-edge technology and innovative solutions. The MUZ-ANA, MUZ-ANA - U, MU-AWA, MUZ-FDNA, and MS-AWA models exemplify the company's commitment to efficiency, comfort, and advanced engineering.

The MUZ-ANA series is designed for residential and light commercial applications, offering powerful cooling and heating performance. One of the key features is its inverter technology, which allows for variable-speed operation. This means that the system can adjust the compressor speed according to the temperature demands, leading to significant energy savings and consistent comfort levels throughout the space. Additionally, the MUZ-ANA series operates quietly, ensuring a pleasant indoor environment.

The MUZ-ANA - U model takes energy efficiency a step further by incorporating a top-tier seasonal energy efficiency ratio (SEER) and heating seasonal performance factor (HSPF). This model is designed to maximize comfort while minimizing energy consumption, making it ideal for eco-conscious consumers.

The MU-AWA series is specifically tailored for larger spaces, making it suitable for commercial settings. Its robust design ensures reliability even under the most demanding conditions. Key features include advanced filtration systems that improve indoor air quality by trapping particulates and allergens, preferred by businesses aiming for a healthier environment.

The MUZ-FDNA model stands out for its sleek, compact design that fits seamlessly into various installation contexts, making it flexible for diverse architectural styles. It also features a built-in drain pan that helps in moisture removal, preventing mold growth and enhancing system longevity.

The MS-AWA model is particularly noteworthy for its smart connectivity options, allowing users to control their HVAC system via mobile devices. This feature empowers users to monitor and adjust temperatures remotely, providing added convenience and efficiency.

In summary, the Mitsubishi Electronics MUZ-ANA, MUZ-ANA - U, MU-AWA, MUZ-FDNA, and MS-AWA models feature state-of-the-art technology geared towards maximizing efficiency, comfort, and reliability. From inverter technology to smart connectivity, these units are designed to meet modern consumer demands while emphasizing sustainability and performance. With Mitsubishi Electronics, you can be assured of exceptional quality and technological advancement in HVAC solutions.