Part ONE General, Part TWO Warranty | EMI DFPH093 (FHP12-SHC09)

EMI ENGINEERING SUBMITTAL DFPH093 (FHP12-SHC09)

PART ONE “GENERAL”

The Heat Pump air conditioning system shall be an EMI AmericaSeries split system. The system shall consist of a Floor mounted packaged evaporator section Model FHP12 and matching AmericaSeries outdoor unit Model SHC09. The units shall be made within North America. The units shall be listed by Intertek Testing Service (ITS) and bear the ETL label. All wiring shall be in accordance with the National Electrical Code (N.E.C.). The units shall be rated in accordance with ARI Standard 210/240 and bear the ARI label. The units shall be manufactured in a facility certiﬁ ed to ISO 9001, which is an international standard used to provide guidance in the development and implementation of an effective Quality Management System. The condensing unit shall contain an R-22 refrigerant charge for the evaporator section and condenser section. System SEER shall meet or exceed 1992 Federal Standards.

PART TWO “WARRANTY”

The units shall have a manufacturer’s warranty for a period of one (1) year from date of installation. The compressor shall have a warranty of ﬁ ve (5) years from date of installation. If, during this period, any part should fail to function properly due to defects in workmanship or material, it shall be replaced or repaired at the discretion of Enviromaster International LLC. This warranty does not include labor. Manufacturer shall have ﬁ fteen years experience in the U.S. market.

PART THREE “PERFORMANCE”

Each indoor unit shall provide a total minimum cooling capacity of 9,500 Btuh with an SEER of 10.5 and EER of 10.0 at ARI standard conditions. The system net minimum total cooling capacity shall be 9,500 Btuh and the net minimum sensible cooling capacity shall be 7,050 Btuh with a circulating air rate of 440 CFM at 80o F (DB)/67o F (WB) entering the indoor coil and 95o F (DB) air entering the outdoor coil. The total power consumption of the combined system shall not exceed 950 Watts at these conditions.

HEATING

The system shall provide a heating capacity of 9,000 Btuh with a HSPF of 7.1 at ARI standard conditions.

The heating capacity at 70º F indoor and17º F outdoor shall be 5,300 Btuh.

PART FOUR “INDOOR UNIT”

The indoor unit shall be factory assembled, wired and contain a low voltage transformer. The cabinet shall be fabricated of G60 galvannealed steel, ﬁ nished in “off-white” with corrosion inhibiting polyester powder-coated paint. The evaporator fans shall be a forward curve centrifugal type, dynamically balanced and directly mounted to the motor shafts. The motor shall be PSC type with internal thermal overload protection. Return air shall be ﬁ ltered by means of an easily removable electrostatic washable ﬁ lter. The indoor unit shall have fresh air capability through the back of the unit. The evaporator coil shall be of nonferrous construction with louvered ﬁ ns bonded to riﬂ ed copper tubing. The tubing shall have inner grooves for high efﬁ ciency heat exchange. All tube joints shall be brazed with phoscopper or silver alloy. The coil shall be pressure tested at the factory. A condensate pan and drain shall be provided under the coil. System refrigerant ﬂ ow shall be controlled by means of an oriﬁ ce piston in the indoor unit. The unit electrical power shall be 208/230 Volts, 1 phase, 60 Hertz. The system shall be capable of satisfactory operation within voltage limits of 208/230 +/- 10% Volts.

PART FIVE “CONTROL SYSTEM”

The control system shall consist of unit-mounted infrared compatible controls. Interconnect low-voltage Wiring shall run from indoor unit to outdoor unit direct. NO SPLICES. When running low voltage wiring a double insulated, 5-wire 18 gage cable is mandatory or use shielded 5-wire cable. The microprocessor shall be factory wired and located within the indoor unit. It shall have the capability of sensing return air temperature and indoor coil temperature; large ¾” LCD backlit display; operational range adjustable between 55º F and 95º F in one-degree increments; anti-short cycle compressor protection; minimum compressor run time; fan purge, fan remains on for 60 seconds after heat/cool call is dropped for improved efﬁ ciency; freeze protection to prevent evaporator freeze ups; annunciation provides an audio feedback when the control settings are changed; universal control board allows the unit to operate with either a straight cool or heat pump condenser; two stage heating when optional electric heat and heat pump condenser

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DFPH093 (FHP12-SHC09) specifications

The EMI DFPH093, also known as FHP12-SHC09, is an advanced hybrid power module designed for high-efficiency applications in various sectors, including industrial automation, renewable energy, and electric vehicles. This module showcases a blend of performance, reliability, and compact design, making it suitable for demanding environments.

One of the standout features of the DFPH093 is its ability to handle high power density while maintaining thermal efficiency. The module is engineered with a robust thermal management system, allowing it to operate effectively in a wide range of temperatures. This is crucial for applications where heat dissipation can affect performance and longevity.

The DFPH093 incorporates cutting-edge semiconductor technologies, including silicon carbide (SiC) and gallium nitride (GaN), which are known for their high switching speeds and efficiency. These materials enable the module to deliver superior performance in power conversion tasks, reducing energy losses and enhancing overall system efficiency. The integration of these advanced technologies facilitates faster response times and improved power integrity.

In terms of connectivity, the module supports various communication protocols, including CAN, Modbus, and Ethernet, providing flexibility for integration into existing systems. This feature is particularly beneficial in industrial settings, where seamless communication among devices is paramount for efficient operation and monitoring.

The DFPH093 is equipped with built-in safety features, including over-current protection, thermal shutdown, and fault detection mechanisms. These safety enhancements ensure that the module can operate reliably under various load conditions, minimizing the risk of failures and extending its lifespan.

Another notable characteristic of the DFPH093 is its compact footprint, which allows for easy integration into space-constrained environments. Its design also incorporates modularity, enabling scalability according to specific application requirements without compromising performance.

In conclusion, the EMI DFPH093 (FHP12-SHC09) stands out as a high-performance hybrid power module characterized by its efficient thermal management, advanced semiconductor technologies, versatile connectivity options, and robust safety features. This module is an ideal choice for a wide range of applications, providing the reliability and efficiency needed to meet the demands of modern power systems. Whether used in industrial automation, renewable energy, or electric vehicles, the DFPH093 is a reliable solution for powering the future.