Part SIX Outdoor Unit | EMI DFPH093 (FHP12-SHC09) specs

EMI ENGINEERING SUBMITTAL DFPH093 (FHP12-SHC09)

are selected; fan operation of auto (cycling), high and low (constant), auto fan operation automatically selects fan speed according to heating or cooling demand; dry mode operates cooling and electric heat simultaneously to remove humidity, optional electric heat must be selected; test operation allows ease of testing after installation (all timers are eliminated); non-volatile back-up memory, control settings are maintained for an indeﬁ nite period during a power outage, when power is restored the equipment will resume operation after a three-minute compressor time delay; optional hand held infra-red controller. The control voltage between the indoor unit and the outdoor unit shall be 24 Volts A.C. The 24 Volts shall be generated from the indoor unit’s 24 Volt 40VA transformer.

PART SIX “OUTDOOR UNIT”

The outdoor unit shall be completely factory assembled, piped and wired. The cabinet shall be fabricated of G60 galvannealed steel, ﬁ nished in “off-white” with corrosion inhibiting polyester powder-coated paint. The unit shall be furnished with one (1) direct drive, propeller type fan arranged for horizontal discharge. The motor shall have inherent protection, be of the permanently lubricated type, and resiliently mounted for quiet operation. The fan shall be provided with a guard to prevent contact with moving parts. The compressor shall be of the high-performance rotary type with Duratec package which consists of an oversized accumulator, factory installed solid core ﬁ lter drier and thermal overloads. The compressor shall be mounted so as to avoid the transmission of vibration. The refrigeration system shall be equipped with a loss of charge switch, and have the capability to operate with a maximum height difference of 35 feet and overall refrigerant tubing length of 100 feet between indoor and outdoor sections without the need for line size changes or additional oil. The condenser coil shall be of nonferrous construction with louvered ﬁ ns bonded to riﬂ ed copper tubing. The unit shall be controlled by the microprocessor located in the indoor matching unit. The heating expansion is controlled by a TXV in the outdoor 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 Volts +/- 10%.

PART SEVEN “OPTIONAL EQUIPMENT”

•Hand Held Infrared Remote Controller – used to command the unit-mounted controls.

•24V Wall Thermostat Control – anti-short cycle compressor protection; fan purge, fan remains on for 60 seconds after heat/cool call is dropped for improved efﬁ ciency; integral heating relay ensures that the fan operates whenever electric heat is energized; two stage heating capable when matched up with an EMI heat pump and an appropriate two stage thermostat.

•3KW Electric Heat – shall be factory installed; automatic reset high temperature cutout and redundant high temperature fuse link.

•Single-Stage hydronic heating coil (one row type) w/sweat connections.

•Internal Condensate Pump – shall be ﬁ eld installed or factory installed and shall have 12 ft of head.

•Low Ambient Control – shall consist of a fan cycle switch and a lock-out relay, ﬁ eld installed.

•Hard Start – shall be ﬁ eld installed.

•Sea Coast Style Coated Coils – shall be factory installed; coating shall protect against corrosion due to acids, solvents and salt.

5780 Success Drive, Rome, NY 13440

Phone: 1-800-228-9364

FAX: 1-800-232-9364

Email: emi@enviromaster.com

Enviromaster International LLC

Rome, New York, USA

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.