Ir para a página of
Manuais similares
-
Heat Pump
Mitsubishi Electronics PCFY-P30NKMU-E
36 páginas 3.2 mb -
Heat Pump
Mitsubishi Electronics MSZ-A15NA
48 páginas 2.14 mb -
Heat Pump
Mitsubishi Electronics PCFY-P36NKMU-E
36 páginas 3.2 mb -
Heat Pump
Mitsubishi Electronics MSZ-A17NA
48 páginas 2.14 mb -
Heat Pump
Mitsubishi Electronics PUHY-P240YSKMU-A (-BS)
4 páginas 0.73 mb -
Heat Pump
Mitsubishi Electronics MSZ-GA35VA
32 páginas 1.42 mb -
Heat Pump
Mitsubishi Electronics MSZ-A09NA
48 páginas 2.14 mb -
Heat Pump
Mitsubishi Electronics MSZ-ANA
28 páginas 0.13 mb
Bom manual de uso
As regras impõem ao revendedor a obrigação de fornecer ao comprador o manual com o produto Mitsubishi Electronics MU-AWA. A falta de manual ou informações incorretas fornecidas ao consumidor são a base de uma queixa por não conformidade do produto com o contrato. De acordo com a lei, pode anexar o manual em uma outra forma de que em papel, o que é frequentemente utilizado, anexando uma forma gráfica ou manual electrónicoMitsubishi Electronics MU-AWA vídeos instrutivos para os usuários. A condição é uma forma legível e compreensível.
O que é a instrução?
A palavra vem do latim "Instructio" ou instruir. Portanto, no manual Mitsubishi Electronics MU-AWA você pode encontrar uma descrição das fases do processo. O objetivo do manual é instruir, facilitar o arranque, a utilização do equipamento ou a execução de determinadas tarefas. O manual é uma coleção de informações sobre o objeto / serviço, um guia.
Infelizmente, pequenos usuários tomam o tempo para ler o manual Mitsubishi Electronics MU-AWA, e um bom manual não só permite conhecer uma série de funcionalidades adicionais do dispositivo, mas evita a formação da maioria das falhas.
Então, o que deve conter o manual perfeito?
Primeiro, o manual Mitsubishi Electronics MU-AWA deve conte:
- dados técnicos do dispositivo Mitsubishi Electronics MU-AWA
- nome do fabricante e ano de fabricação do dispositivo Mitsubishi Electronics MU-AWA
- instruções de utilização, regulação e manutenção do dispositivo Mitsubishi Electronics MU-AWA
- sinais de segurança e certificados que comprovam a conformidade com as normas pertinentes
Por que você não ler manuais?
Normalmente, isso é devido à falta de tempo e à certeza quanto à funcionalidade específica do dispositivo adquirido. Infelizmente, a mesma ligação e o arranque Mitsubishi Electronics MU-AWA não são suficientes. O manual contém uma série de orientações sobre funcionalidades específicas, a segurança, os métodos de manutenção (mesmo sobre produtos que devem ser usados), possíveis defeitos Mitsubishi Electronics MU-AWA e formas de resolver problemas comuns durante o uso. No final, no manual podemos encontrar as coordenadas do serviço Mitsubishi Electronics na ausência da eficácia das soluções propostas. Atualmente, muito apreciados são manuais na forma de animações interessantes e vídeos de instrução que de uma forma melhor do que o o folheto falam ao usuário. Este tipo de manual é a chance que o usuário percorrer todo o vídeo instrutivo, sem ignorar especificações e descrições técnicas complicadas Mitsubishi Electronics MU-AWA, como para a versão papel.
Por que ler manuais?
Primeiro de tudo, contem a resposta sobre a construção, as possibilidades do dispositivo Mitsubishi Electronics MU-AWA, uso dos acessórios individuais e uma gama de informações para desfrutar plenamente todos os recursos e facilidades.
Após a compra bem sucedida de um equipamento / dispositivo, é bom ter um momento para se familiarizar com cada parte do manual Mitsubishi Electronics MU-AWA. Atualmente, são cuidadosamente preparados e traduzidos para sejam não só compreensíveis para os usuários, mas para cumprir a sua função básica de informação
Índice do manual
-
Página 1
MS-A•W A · MU-A•W A MSZ-A•NA · MUZ-A•NA · MUZ-A•NA - MSY -A•NA · MUY -A•NA · MXZ-A•NA U SER VICE TECHNICAL GUIDE CONTENTS 1. MS MICROPROCESSOR CONTROL ··················3 2. MSZ,MSY MICROPROCESSOR CONTROL ·······6 3. MXZ MICROPROCESSOR CONTROL ··············20 Wireless type Models SPLIT -T[...]
-
Página 2
1. MS MICROPROCESSOR CONTROL ···························································3 Indoor unit models Outdoor unit models MS-A09W A MU-A09W A MS-A12W A MU-A12W A 1-1. COOL OPERA TION···················································[...]
-
Página 3
3 MS MICROPROCESSOR CONTROL 1 1-1. COOL ( ) OPERA TION MS-A09W A MU-A09W A MS-A12W A MU-A12W A 2. Indoor fan speed control Indoor fan operates continuously at the set speed by F AN SPEED CONTROL button regardless of the thermostat’s OFF-ON. In AUTO the fan speed is as follows. Room temperature minus set temperature : 3.1 degrees or more ····?[...]
-
Página 4
4 -1.8 deg. -1.3 deg. 1. Thermostat control Thermostat is ON or OFF by difference between room temperature and set temperature. Initial temperature difference Thermostat Room temperature minus set temperature : -1.8 degrees or more·····································ON Room temperature minus set temperature : l[...]
-
Página 5
5 1-3. AUT O V ANE OPERA TION 1. Horizontal vane <SWING operation> In swing operation of ECONO COOL operation mode, the initial air flow direction is adjusted to “Horizontal”. According to the temperature of indoor coil thermistor RT12 at starting of this operation, next downward blow time is decided. Then when the downward blow has been [...]
-
Página 6
MSZ,MSY MICROPROCESSOR CONTROL 6 2 2-1. COOL ( ) OPERA TION MSZ-A09NA MSY -A15NA MUZ-A09NA MUY -A15NA MSZ-A12NA MSY -A17NA MUZ-A12NA MUY -A17NA MSZ-A15NA MSY -A24NA MUZ-A15NA MUY -A24NA MSZ-A17NA MUZ-A17NA MSZ-A24NA MUZ-A24NA 2. Indoor fan speed control Indoor fan operates continuously at the set speed by F AN SPEED CONTROL button regardless of the[...]
-
Página 7
7 Set temperature is as shown on the right chart. The system for dry operation uses the same refrigerant circuit as the cooling circuit. The compressor and the indoor fan are controlled by the room tem- perature. By such controls, indoor flow amounts will be reduced in order to lower humidity without much room temperature decrease. 2-2. DR Y ( ) OP[...]
-
Página 8
8 (2) Cold air prevention control MSZ-A09/12/15/17 1 When the compressor is not operating, ( 1 ) if the temperature of room temperature thermistor R T1 1 is less than 66°F , the fan stops. ( 2 ) if the temperature of room temperature thermistor R T1 1 is 66°F or more and ( 1 ) if the temperature of RT12 is less than 32°F , the fan stops. ( 2 ) i[...]
-
Página 9
9 T ime chart of defrosting in HEA T mode (reverse type) set position set speed set position set speed Indoor fan Compressor normal Outdoor fan R.V . coil (21S4) OFF (COOL) OFF Maximum frequency horizontal Horizontal vane V ery Low (temperature of indoor coil thermistor > 64 ° F) 30 seconds 30 seconds 30 seconds 40 seconds 5 seconds 5 seconds 4[...]
-
Página 10
10 (3) Indoor fan control/ V ane control As the indoor fan speed and the horizontal vane position depend on the selected operation mode, when the operation mode changes over , they change to the exclusive ones. 2-5. OUTDOOR F AN MOTOR CONTROL Fan speed is switched according to the compressor frequency . COOL Fan speed Up Down Up Down Mode HEA T (MU[...]
-
Página 11
11 <SWING operation> In swing operation of ECONO COOL operation mode, the initial air flow direction is adjusted to “Horizontal”. According to the temperature of indoor coil thermistor RT12 at starting of this operation, next downward blow time is decided. Then when the downward blow has been finished, next horizontal blow time is decided[...]
-
Página 12
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 Power supply INVERTER P .C. BOARD R64A R64B CT TR821 DB65 X64 L62 L63 C63A C63B C63C DB61 L61 P W V U N CT761 CT781 IPM U W MC V + Booster chopper circucuit SYMBOL IPM C63A/C63B/C63C CT761/CT781 CT DB61 R64A, R64B X64 D[...]
-
Página 13
13 4. Intelligent power module IPM consists of the following components · IGBT (x6) : Converts DC waveform to three-phase AC waveform and outputs it. · Drive Circuit : Drives transistors. · Protection circuit : Protects transistors from overcurrent. Since the above components are all integrated in IPM, IPM has a merit to make the control circuit[...]
-
Página 14
14 SYMBOL IPM CB1~3 CT1~2 CT61 L PFC R64A, R64B X64 NAME INTELLIGENT POWER MODULE SMOOTHING CAP ACITOR CURRENT TRANSFORMER CURRENT TRANSFORMER REACTOR POWER F ACTOR CONTROLLER CURRENT -LIMITING RESISTOR RELA Y FUNCTION It supplies three-phase AC power to compressor. It stabilizes the DC voltage. It measures the current of the compressor motor. It m[...]
-
Página 15
15 Rotor Rotor Position Signal Permanent magnet is embedded. Necessary DC Motor Excited by magnetic field of stator Unnecessary AC Motor 2-7-4. Characteristics of sine wave control in case of brushless DC motor ● Although ordinary three-phase induction motor requires energy to excite the magnetic field of rotor, brushless DC motor doesn't ne[...]
-
Página 16
16 w The operation frequency in COOL mode is restricted the upper limit frequency after 1 hour as shown below for dew prevention. It is rated frequency or less. 1 hour T ime Maximum frequency Upper limit frequency Rated frequency or less Applied model MUZ-A09 Minimum frequency Maximum frequency Minimum frequency Maximum frequency 32 COOL HEA T(MUZ)[...]
-
Página 17
17 standard specification 2-9. EXP ANSION V AL VE CONTROL (LEV CONTROL) (1) Outline of LEV control The LEV basic control is comprised of setting LEV opening degree to the standard opening degrees set for each opera- tional frequency of the compressor . However , when any change in indoor/outdoor temperatures or other factors cause air conditioning [...]
-
Página 18
18 (2) T ime chart OFF T ime T ime ON Operational frequency of the compressor Commanded to open Standard opening degree Opening degree is corrected according to discharge temperature. Positioning Air conditioner ON Air conditioner OFF (thermostat off) LEV opening degree about 5 minutes <COOL, DRY> about 15 minutes <HEA T> (3) Control da[...]
-
Página 19
19 In COOL operation, the two indoor coil thermistors (one main and one sub) sense temperature ununiformity (super heat) at the heat exchanger , and when temperature difference have developed, the indoor coil thermistors adjust LEV opening degree to get approximate 10 degrees lower temperature than the target temperature in the table above, thus di[...]
-
Página 20
MXZ MICROPROCESSOR CONTROL 20 3 3-1. INVERTER SYSTEM CONTROL MXZ-2A20NA MXZ-3A30NA SYMBOL IPM CB1~3 CT1~2 CT61 L PFC R64A, R64B X64 NAME INTELLIGENT POWER MODULE SMOOTHING CAP ACITOR CURRENT TRANSFORMER CURRENT TRANSFORMER REACTOR POWER F ACTOR CONTROLLER CURRENT -LIMITING RESISTOR RELA Y FUNCTION It supplies three-phase AC power to compressor. It [...]
-
Página 21
21 4. Power transistor module IPM consists of the following components. · Power Transistors (x6) : Converts DC waveform to three-phase AC waveform and outputs it. · Drive Circuit : Drives transistors. · Protection circuit : Protects transistors from over current. Since the above components are all integrated in IPM, IPM has a merit that can get [...]
-
Página 22
22 3-2. EXP ANSION V AL VE CONTROL (LEV CONTROL) Linear expansion valve (LEV) is controlled by "Thermostat ON" commands given from each unit. When outdoor unit is operating, some indoor units stop and some operate. • LEV opening for each indoor unit is determined by adding adjustment in accordance with the number of operating unit and t[...]
-
Página 23
23 The table below shows the role of Exclusive LEV and Receiver LEV in each operation mode. w In COOL mode, the two indoor coil thermistor (one main and one sub) sense temperature ununiformity (super heat) at the heat exchanger , and when temperature dif ference have developed, the indoor coil thermistors adjust LEV opening to dimin- ish the super [...]
-
Página 24
24 Capacity code Indoor unit 4 09 7 12 9 15 10 17 12 24 Standard opening (pulse) 01 02 03 04 05 06 07 08 COOL LEV Opening(code) HEA T 126 140 130 146 134 150 138 170 140 180 142 200 182 224 228 244 09 296 272 10 310 280 Code5,6 Code3,4 Difference in capacity Difference in operation number COOL HEA T 3 3 6 6 Code7,8 9 9 Code9,10 12 52 Code1 1,12 15 [...]
-
Página 25
25 MXZ-3A 1 Discharge temperature 2 Each correction • (Each gas pipe temperature thermistor - Minimum gas pipe temperature thermistor) w 1 • (Main indoor coil thermistor - Sub indoor coil thermistor) w 1 Perform this, when number of operation units is 2 units or more. w 2 Correct the LEV opening by discharge temperature. COOL DRY HEA T • • [...]
-
Página 26
26 Correct the LEV opening according to the difference between target discharge temperature and discharge temperature. Discharge temperature (˚F) LEV opening correction (pulse) More than T arget discharge temperature+18 T arget discharge temperature+18 to T arget discharge temperature+9 T arget discharge temperature+9 to T arget discharge temperat[...]
-
Página 27
27 3-3. OPERA TIONAL FREQUENCY RANGE Number of operating unit 1 2 Capacity code 1, 2, 3, 4 5, 6 7, 8 9, 10 1 1, 12 13, 14 15 or above 2, 3, 4, 5, 6, 7 8, 9, 10 1 1, 12, 13 14, 15, 16 17, 18, 19, 20, 21 22, 23, 24 or above Min. 20 20 20 20 20 20 30 30 30 30 30 30 COOL (Hz) Max. 65 65 65 94 94 94 94 94 94 94 94 94 DRY (Hz) 25 25 30 75 75 75 75 52 52 [...]
-
Página 28
New publication, effective Apr . 2006 Specifications subject to change without notice. C C Copyright 2006 MITSUBISHI ELECTRIC ENGINEERING CO.,L TD Distributed in Apr . 2006. No. OBT16 7 Made in Japan HEAD OFFICE: TOKYO BLDG.,2-7-3, MARUNOUCHI, CHIYODA-KU, TOKYO 100-8310, JAP AN Fan speed is switched according to the number of operating indoor unit [...]