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© 1995-2020 Energy Saving Products Ltd.

© 1995-2020 Energy Saving Products Ltd.

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Troubleshooting the TXV

When issues arise that bring the function of the TXV into 

question,  factors  must  be  looked  into  before  replacement. 

Inspect the TXV for signs of damage. This may be from a pinched 

equalizer line to a burnt valve. These issues will have an adverse 

affect on the operation of the valve. Should the equalizer line be 

pinched, the valve will no longer be able to supply the proper 

amount of refrigerant to the coil. A burnt valve may have an effect 

on the refrigerant charge of the TXV bulb or the seal of the valve. 

This may again cause an improper amount of refrigerant to be 

metered by the valve or cause the valve head to become seized.

 

The TXV bulb location and mounting should also be inspected. 

The bulb should be securely mounted on the top half of the 

suction line. If the bulb is loose or on the lower half of the line, the 

bulb will not properly sense the refrigerant temperature and will 

not meter the proper amount of refrigerant. Ensure that the bulb 

is also properly insulated, as a lack of insulation will expose the 

bulb to conditions well outside those of the coil. This will cause an 

overfeed of refrigerant to the system.

Should the installation of the valve be proper, and no damage 

is  evident,  inspect  the  operation  of  the  valve.  If  the  TXV  bulb 

is removed and held in ones hand, the valve should react 

accordingly. This sudden increase in heat will open the valve. This 

will cause a rise in suction pressure and a drop in liquid pressure. 

Should nothing happen, the valve is likely seized and will need to 

be replaced.

and outdoor unit, on and off. This often takes the form of very 

short and frequent on cycles. There are many factors that may 

contribute to short cycling of the refrigerant system. These issues 

can  generally  be  broken  down  between  airflow  related  issues, 

refrigerant issues, and installation issues.

Low airflow rates are one of the most common causes of short 

cycling. As the airflow rate is lowered across the cooling coil, the 

coil pressure drops along with it. This lowers the temperature of 

the coil and may cause the freeze-stat to trip. As the system settles, 

the freeze-stat closes and the cycle begins again, as the unit 

does not run long enough for the space to become adequately 

conditioned. Ensure that the proper amount of airflow is provided 

to the coil. Check for proper air flows and return air practices.

Improperly charged systems run the risk of short cycling as well. 

An undercharged system will react much the same as a system 

with low airflow. If the charge is low enough, it may trip out on 

low pressure. If a system is overcharged, it may trip out on high 

head pressure. Ensure that the system charge is within the bounds 

described in section “Piping the RPM-E”.

System  set-up  and  installation  should  be  checked  as  well. 

Piping practices should be within the bounds described in section 

“Piping the RPM-E” and within the realms of the outdoor unit 

manufacturer.  Extreme  and  often  unnecessary  adjustment  of 

the TXV can create conditions similar to an undercharged coil. A 

poorly placed T-stat, such as underneath a vent, can cause short 

cycling. This happens due to the T-stat being satisfied very shortly 

after the unit has begun to operate.

Short Cycling

Short cycling is the unnecessary running of the indoor

Specifications

RPM-E-50

RPM-E-70

RPM-E-100

Matching Fan Coil

HE-Z/HE-B/HE-50/51

HV-50/51/52

LV-50

HE-Z/HE-B/HE/HV-70/71

LV-70

HE-Z/HE-B/HE/HV-100/101

Part Number

20090200050

20090200070

20090200100

Tons

(1)

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)

Refrigerant Type

R-410A

R-410A

R-410A

TX Cooling MBH

(2) 

   

 

18-24

 (5.3-7.0 kW)

30-36

 (8.8-10.6 kW)

42-60

 (12.3-17.6 kW)

Latent Cooling MBH

6.8-8.9

 (2.0-2.6 kW)

11.7-13.7

 (3.4-4.0 kW)

16.0-22.2

 (4.7-6.5 kW)

Fin Material

Aluminum

Aluminum

Aluminum

Tubing Material

Copper

Copper

Copper

Type of Fins

.006 Al 

(0.1524mm)

.006 Al 

(0.1524mm)

.006 Al 

(0.1524mm)

Hydronic 

Connection 

Sizes

Liquid Line (Lq)

3/8

” 

(9.5mm)

3/8

” 

(9.5mm)

3/8

 

(9.5mm)

Suction Line (S)

7/8

 (22.3mm)

7/8

 (22.3mm)

7/8

 (22.3mm)

Drain Connection

3/4

” 

M CPVC

 

(19mm)

3/4

 

M CPVC

 

(19mm)

3/4

” 

M CPVC

 

(19mm)

TXV with 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

48 lbs

 

(22kg)

59 lbs

 

(27kg)

74 lbs

 (34kg)

Module Size (L x W x H)

19 

1

⁄4

” x 14 

5

⁄8

” x 18 

1

⁄2

(489mm x 371mm x 470mm)

24 

1

⁄4

” x 14 

5

⁄8

” x 18 

1

⁄2

(616mm x 371mm x 470mm)

32” x 14 

5

⁄8

” x 18 

1

⁄2

” 

(813mm x 371mm x 470mm)

MBH - Thousand British Thermal Units per Hour

TX - Thermal Expansion

TXV - Thermal Expansion Valve

(2) Smaller condensers may be matched to the fan coil when needed (match TXV to condenser size)

(1) Minimum of

Minimum of

 four HE outlets

 four HE outlets

 per ton of cooling needed. (2" Duct = Minimum 

 per ton of cooling needed. (2" Duct = Minimum 

eight outlets

eight outlets

 per ton)

 per ton)

Module RPM-E

Refrigerant Module Installation

Summary of Contents for RPM-E

Page 1: ...y Module RPM E Refrigerant Module Installation 052020 Module RPM E Refrigerant Module Installation 052020 RPM E Refrigerant Module Installation Manual Small Duct High Velocity Heating Cooling and Home Comfort Systems ...

Page 2: ...g 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 combination of A to A1 or B to B1 as this would bypass the cooling coil completely A1 is not to be used f...

Page 3: ...is is where the top most extent of the cooling coil is located See Specification Pages for the dimensions of the fan coil units and cooling modules Fig RPM 05 Secondary drain pan Capped Cleanout P Trap Secondary Drain Primary Drain Drain Connections P Trap Secondary Drain Pan The primary condensate drain must have a minimum 3 P Trap installed Fig 05 The drain line must run at a slope of per foot i...

Page 4: ...ure that the system will see Allow the system to hold the nitrogen charge for at least 15 minutes to ensure there are no leaks Check with local codes for proper testing procedures After the piping is installed and all components have been brazed together a vacuum pump must be used to evacuate the system from both the low and high side to 1500 microns 200 pa Add pressure to the system to bring the ...

Page 5: ...quid 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 refrig...

Page 6: ...ure that the proper amount of airflow is provided to the coil Check for proper air flows and return air practices Improperly charged systems run the risk of short cycling as well An undercharged system will react much the same as a system with low airflow If the charge is low enough it may trip out on low pressure If a system is overcharged it may trip out on high head pressure Ensure that the sys...

Page 7: ...other products or materials furnished by the installer TERMS CONDITIONS Any repair performed under warranty must be approved by Energy Saving Products Ltd for this warranty to be valid This warranty replaces all other warranties expressed or implied www hi velocity com Should there be multiple consecutive failures of a single part warranty will not be considered unless a contractor has contacted E...

Page 8: ...b Energy Saving Products prides itself on Customer Service and provides design services and contractor support For all of your Heating Cooling and Indoor Air Quality needs the Hi Velocity System is the right choice for you Phone 780 453 2093 Fax 780 453 1932 Toll Free 1 888 652 2219 www hi velocity com Hi Velocity HE Z Fan Coils Hi Velocity HE Z Fan Coils Green Green Technology Technology Build Sm...

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