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Most system start ups require only an adjustment to the 

refrigerant  level  of  the  system.  Should  further  refinement  be 

required, the TXV may be adjusted. A clockwise turn of the 

superheat valve (the direction in which the cap is screwed on) 

will result in a closing of the valve while a counterclockwise 

turn (the direction in which the cap was unscrewed) will result 

in opening of the valve. Always note system conditions before 

adjusting the valve and allow 5 minutes for the system to settle 

before making any further adjustments. Never adjust the TXV 

more than one quarter turn at a time.

Module RPM

Refrigerant Module Installation (RPM-E) (4/5)

Module RPM Refrigerant Module Installation (RPM-E) (4/5)

Freeze Stat

The RPM-E series cooling coil comes equipped with an 

anti-freeze control mounted on the suction line. This freeze 

control serves the purpose of preventing severe icing of the coil 

in the event of an undercharge or low load on the coil. 

This 

piece of equipment must be used at all times. Lack of use 

of the freeze-stat will result in RPM-E related warranty 

issues being voided.

 During start-up, it is acceptable to 

jumper across the Freeze-Stat. This will prevent the freeze-

stat from shutting the system off while charging a new system 

that may be low on refrigerant. Once charged and running, 

this jumper must be removed and the Freeze-Stat connected to 

the X1 and X2 terminals on the Printed Circuit Board. Should 

wiring needs arise in which the outdoor unit is controlled 

through another means of wiring, the Freeze-Stat should be 

connected in series on the supply side of the control wiring. 

Heat Pumps

Traditionally, SDHV systems have been charged to special 

guidelines when used in conjunction with heat pumps. This 

charging procedure involved charging the units to normal 

cooling capacities and reviewing the operation in heating mode. 

If head pressures were found to be impinging on the high head 

pressure limits, a small amount of refrigerant was removed to 

prevent the unit from shutting down. The cause of high head 

pressures in heating mode is due to the disparity in sizes of the 

indoor and outdoor coils, along with the lower airflow rates of 

SDHV systems.

The RPM-E coil can operate at a level that is different from 

most other conventional system coils. Typically, superheat level 

are low, two to four degrees of superheat. Adjustment of the valve 

also differs somewhat. Rather than having a large effect on the 

range of superheat, adjustment of the valve has a larger effect 

on the system pressures; superheat maintaining a fairly constant 

point. Opening the valve will increase suction pressures and 

decrease liquid pressures, while closing the valve will decrease 

suction pressures and raise liquid pressures.

Bi-Flow Receiver

The Bi-Flow Receiver is designed for use with heat pump 

systems, up to 5 tons, and with any typical refrigerants. The 

receiver allows refrigerant a location to migrate to during the 

heating cycle, minimizing head pressures. During cooling mode, 

the receiver is empty, allowing the full refrigerant charge to be 

utilized for cooling.

The receiver is a horizontal tank with a pair of dip tubes 

extending to the bottom of the tank. These two tubes allow for 

liquid refrigerant to be drawn from the tank regardless of the 

direction of flow. For this reason, the receiver must be mounted 

so that the inlet/outlets of the tank come out of the top of the unit. 

Mounting brackets are located at the base of the unit for secure 

mounting. The receiver is to be located on the liquid line of the 

system, anywhere between the indoor and outdoor coils. As the 

unit is of a bi-flow design, it does not matter which end faces 

towards the indoor coil.

The inlet/outlet ports are constructed of steel and require the 

use of a 35-45% Silver Solder and Flux for brazing. The use of 

standard copper to copper solders may result in difficulty brazing 

and the potential for a failure at the weld. Ensure that the tank is 

protected from overheating while brazing and that any remaining 

flux is cleaned from the unit. If installing outdoors, ensure that 

the receiver is insulated and protected from the elements.

With the introduction of newer, larger heat pumps, this issue 

is more likely to be experienced. While some heat pump units 

may still be charged in the traditional method, the amount of 

refrigerant that is required to be removed for heating mode may
leave the system drastically undercharged for cooling mode. For 

this reason it is highly recommended that a Bi-Flow Receiver be 

used with heat pump applications.

Charging Cont’d

Summary of Contents for RPM-E Series

Page 1: ...Small Duct Heating Cooling and Indoor Air Quality Systems Hi Velocity Systems RPM E Cooling Installation Module RPM RPM E Cooling Installation 052813 www hi velocity com www hi velocity com Manufactured By ...

Page 2: ...access hatch The liquid and suction lines have male solder connections at a standard width making connections to the condenser lines quick and easy Fig RPM 01 RPM E Cooling Module Configurations When installing follow the recommendations shown in Table 01 demonstrated in Fig 01 For example a horizontal application could use A to B while highboy applications could use A to B1 Do not use a combinati...

Page 3: ... with a 19mm primary and secondary outlet The condensate drain must have a vented p trap installed Fig RPM 05 and run at a slope of 6 7mm per foot in the direction of the drain When installing the P trap one must be installed on both the primary and secondary outlets The P traps must have a minimum depth of two inches 51mm Due to the high negative pressure of the blower system the RPM E will hold ...

Page 4: ...heat dissipating paste to ensure no overheating occurs to the pre piped coil assembly Excess heat may damage the RPM E components Fig RPM 06 Remove Front Access Panel Once the system has been brazed it must be pressure tested Pressure testing must be done with nitrogen and not refrigerant Typically pressures are tested to the maximum operating pressure that the system will see Allow the system to ...

Page 5: ...airflow rates of SDHV systems The RPM E coil can operate at a level that is different from most other conventional system coils Typically superheat level are low two to four degrees of superheat Adjustment of the valve also differs somewhat Rather than having a large effect on the range of superheat adjustment of the valve has a larger effect on the system pressures superheat maintaining a fairly ...

Page 6: ...h Built in Check Valve Bypass Yes Yes Yes Site Glass Yes Yes Yes Access Ports Yes Yes Yes Freeze Stat Yes Yes Yes Shipping Weight lbs 48 22kg 59 27kg 74 34kg Module Size L x W x H 191 4 x 145 8 x 181 2 489mm x 371mm x 470mm 241 4 x 145 8 x 181 2 616mm x 371mm x 470mm 32 x 145 8 x 181 2 813mm x 371mm x 470mm Tons2 1 5 2 0 5 3 7 0 Kw 2 5 3 0 8 8 10 6 Kw 3 5 5 0 12 3 17 6 Kw 1 Smaller condensers may ...

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