Carrier 48ZT, ZN030-105, ZW, Z6, Z8075-105, 48ZG Auxiliary Control Box Location Sizes

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Air Pressure Tubing — Before options such as inlet guide vanes (IGV), variable frequency drive (VFD), and/or modulating power exhaust can operate properly, the pneumatic tubing for pressure sensing must be installed. Use fire-retardant plenum tubing (field-supplied). All control devices use 1/4-in. tubing. Tubing must be run from the appropriate sensing loca- tion (in the duct or in the building space) to the control device location in the unit.

INLET GUIDE VANES — The tubing for the duct pressure (DP) control option should sample supply duct pressure about 2/3 of the way out from the unit in the main trunk duct, at a location where a constant duct pressure is desired.

The duct pressure is sensed by a pressure transducer. The output of the pressure transducer is directed to the unit control module. On all sizes, the DP transducer is located in the unit auxiliary control box. See Fig. 45 and 46 for auxiliary control box location. See Fig. 47 and 48 for auxiliary control box details. Use a nominal 1/4-in. plastic tubing.

VARIABLE FREQUENCY DRIVE — The tubing for the duct pressure (DP) control option should sample supply duct pressure about 2/3 of the way out from the unit in the main trunk duct, at a location where a constant duct pressure is desired.

On these units, the duct pressure is sensed by a pressure transducer. The pressure transducer output is directed to the unit control module. On all sizes, the DP transducer is located in the unit auxiliary control box. See Fig. 45 and 46 for auxiliary control box location. See Fig. 47 and 48 for auxiliary control box details. Use a nominal 1/4-in. plastic tubing.

Refer to appropriate base unit Controls and Troubleshooting book for instructions on adjusting set points for duct pressure controls.

MODULATING POWER EXHAUST — The tubing for the building pressure (BP) control (achieved via the modulating power exhaust option) should sample building pressure in the area near the entrance lobby (or other appropriate and sensitive location) so that location is controlled as closely to design pres- sures as possible.

These units use a pressure transducer for sensing building pressure. The BP transducer is located in the unit auxiliary con- trol box. See Fig. 45 and 46 for auxiliary control box location. See Fig. 47 and 48 for auxiliary control box details. Use a nom- inal 1/4-in. plastic tubing.

For instructions on adjusting BP control set points, refer to the Controls and Troubleshooting book.

RETURN/EXHAUST POWER EXHAUST — The tubing for the building pressure (BP) control (achieved via the return/ exhaust power exhaust option) should sample building pres- sure in the area near the entrance lobby (or other appropriate and sensitive location) so that location is controlled as closely to design pressures as possible.

The units use a pressure transducer for sensing building pressure. The BP transducer is located in the unit auxiliary con- trol box. See Fig. 46 for auxiliary control box location. Fig. 49 for auxiliary control box details. Use a nominal 1/4-in. plastic tubing.

For instructions on adjusting BP control set points, refer to the Controls and Troubleshooting book.

AUXILIARY

CONTROL

BOX

Fig. 45 — Auxiliary Control Box Location (Sizes 030-050)

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Contents Installation Instructions Installation Base Unit Physical Data 48ZG,ZN030-050Alternate High-Capacity Evaporator Coil Base Unit Physical Data 48ZG,ZN055-070Base Unit Physical Data 48ZG,ZN075-105Outside AIR Screens Physical Data 48Z6,Z8075-105 RETURN/EXHAUST FAN Physical Data 48ZT,ZW075-105 Power Exhaust Operating Weights of Options and Accessories lbReturn/Exhaust Fan Drive Data 48Z6,Z8 Units Power Exhaust Fan Drive DataHigh-Capacity Power Exhaust Fan Drive Data 48ZT,ZW Units Supply Fan Drive DataRoof Curb Sizes 055-105 Roof Curb Sizes 075-105 with High-Capacity Power Exhaust Condenser Section Roof Curb Size 055 and 060 Only Condenser Section Roof Curb Size 070-105 Only Condenser END Support Gasket Location on Roof Curb 48ZT,ZW075-105 Units Rigging Label Size 055-105 Units Standard Chassis Rigging Label Size 055,060 Units Extended Chassis Weight Distribution and Center of Gravity Page 24 → Page Page A48-8451 Page Page A48-8452 A48-8453 A48-8454 Install Outdoor Hoods 48ZG,ZN,Z6,Z8 Units Outdoor Air Hood Installation Sizes Install Economizer Hoods 48ZT,ZW Units Field Wire Routing Disconnect Location Size 030-050 Units Disconnect Location 48ZG,ZN055-105 and 48Z6,Z8075-105 Units Field Power Wiring Connections MCA Mocp FLA Electrical Data, 48ZG,ZN030 UnitsElectrical Data, 48ZG,ZN035 Units Electrical Data, 48ZG,ZN040 Units Electrical Data, 48ZG,ZN050 Units MCA Mocp FLA Electrical Data, 48ZG,ZN055 UnitsElectrical Data, 48ZG,ZN060 Units 460 Electrical Data, 48ZG,ZN070 UnitsElectrical Data 48ZG,ZN075-105 Units Electrical Data 48Z6,Z8075-105 Units Electrical Data 48ZT,ZW075-105 Units Indoor Evaporator Fan Motor Auxiliary Control Box Location Sizes Sizes Sizes 055-105 without Return Fan Auxiliary Control Box DetailsReturn/Exhaust-Fan Shipping Brackets 48Z6 Shipping Brackets Sizes Compressor Mounting 48Z Series Staged Gas Implementation Gas Piping DetailsFlue/Inlet Hood Locations, 030-060 Units Inlet Hood View Port Cover Installation Units Only Point SGC Thermistor DesignationsCCN Connection Approved Shielded Cables Smoke Control Modes Field Control Thermostat WiringSpace Temperature Averaging Wiring Heat Interlock Relay Wiring Fan Status Switch Wiring Return Air Smoke Detector Wiring CCN Connections Page Copyright 2009 Carrier Corporation
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Z6, 48ZG, 48ZT, ZW, Z8075-105 specifications

The Carrier Z8075-105, Z6, 48ZG, 48ZT, and ZW series of HVAC systems represent a significant advancement in heating, ventilation, and air conditioning technology. These units are specifically designed for enhanced energy efficiency, superior performance, and ultimate comfort in residential and commercial spaces.

The Carrier Z8075-105 model stands out due to its impressive cooling and heating capabilities. It features a high Seasonal Energy Efficiency Ratio (SEER) and Heating Seasonal Performance Factor (HSPF), allowing for reduced energy consumption and lower utility bills. This model is equipped with advanced inverter technology that enables variable speed operation, significantly reducing noise levels and providing consistent temperature control.

Turning to the Z6 model, it is engineered for both robustness and reliability. It incorporates a modular design that allows for easy installation and maintenance. One of its key features is the use of innovative insulation materials that minimize sound levels, making it ideal for noise-sensitive environments. Furthermore, the Z6 series comes with a smart control system that allows users to monitor and adjust settings remotely, further optimizing energy usage.

The 48ZG and 48ZT models are designed with durability in mind. They utilize a fully enclosed compressor system that protects critical components from environmental damage. These models also boast enhanced dehumidification capabilities, making them suitable for humid climates. Equipped with advanced filtration systems, they improve indoor air quality by removing allergens and particulates effectively.

Carrier's ZW series exemplifies cutting-edge technology with its dual fuel capability, which allows the system to switch between a heat pump and a gas furnace, depending on outdoor temperatures. This feature maximizes energy savings while ensuring a comfortable indoor climate year-round. The ZW models also support integration with smart home systems, providing seamless control through mobile apps.

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