Bryant 663C Ðdefrost Control SPEED-UP Timing Sequence, XIV. Check Charge, → XV. Final Checks

Page 12

 

OF2

 

 

OF1

 

 

 

O

R T2 Y TI DFT

C

TEST 30 50 90

 

 

 

W1

O

 

 

 

R

 

 

 

W2

 

 

 

Y

 

 

 

C

 

 

 

 

CES0110063,

 

 

CES0130024

 

A91444

Fig. 15ÐDefrost Control

TABLE 3ÐDEFROST CONTROL SPEED-UP

TIMING SEQUENCE

PARAMETER

MINIMUM

MAXIMUM

SPEED-UP

(MINUTES)

(MINUTES)

(NOMINAL)

 

30-minute cycle

27

33

7 sec

50-minute cycle

45

55

12 sec

90-minute cycle

81

99

21 sec

10-minute cycle

9

11

2 sec

5 minutes

4.5

5.5

1 sec

 

 

 

 

XIV. CHECK CHARGE

Factory charge is shown on unit rating plate. To check charge in cooling mode, refer to Cooling Only Procedure. To check charge in heating mode, refer to Heating Check Chart Procedure.

A. Cooling Only Procedure

NOTE: If subcooling charging conditions are not favorable, charge must be weighed in accordance with unit rating plate ± 0.6 oz/ft of 3/8-in. liquid line above or below 15 ft respectively.

EXAMPLE:

To calculate additional charge required for a 25-ft line set:

25 ft - 15 ft = 10 ft X 0.6 oz/ft = 6 oz of additional charge Units installed with cooling mode TXV require charging with the subcooling method.

1.Operate unit a minimum of 10 minutes before checking charge.

2.Measure liquid service valve pressure by attaching an accurate gage to service port.

3.Measure liquid line temperature by attaching an accurate thermistor type or electronic thermometer to liquid line near outdoor coil.

4.Refer to unit rating plate for required subcooling tempera- ture.

TABLE 4ÐREQUIRED LIQUID-LINE TEMPERATURE (°F)

LIQUID

 

REQUIRED SUBCOOLING

 

PRESSURE AT

 

 

TEMPERATURE

 

SERVICE VALVE

 

 

 

(°F)

 

(PSIG)

5

 

10

 

15

 

20

 

 

 

 

 

 

 

 

134

71

 

66

 

61

 

56

141

74

 

69

 

64

 

59

148

77

 

72

 

67

 

62

156

80

 

75

 

70

 

65

163

83

 

78

 

73

 

68

171

86

 

81

 

76

 

71

179

89

 

84

 

79

 

74

187

92

 

87

 

82

 

77

196

95

 

90

 

85

 

80

205

98

 

93

 

88

 

83

214

101

 

96

 

91

 

86

223

104

 

99

 

94

 

89

233

107

 

102

 

97

 

92

243

110

 

105

 

100

 

95

253

113

 

108

 

103

 

98

264

116

 

111

 

106

 

101

274

119

 

114

 

109

 

104

285

122

 

117

 

112

 

107

297

125

 

120

 

115

 

110

309

128

 

123

 

118

 

113

321

131

 

126

 

121

 

116

331

134

 

129

 

124

 

119

346

137

 

132

 

127

 

122

359

140

 

135

 

130

 

125

B. Heating Check Chart Procedure

To check system operation during heating cycle, refer to the Heating Check Chart on outdoor unit. This chart indicates whether a correct relationship exists between system operating pressure and air temperature entering indoor and outdoor units. If pressure and temperature do not match on chart, system refrigerant charge may not be correct. Do not use chart to adjust refrigerant charge.

NOTE: When charging is necessary during heating season, charge must be weighed in accordance with unit rating plate ± 0.6 oz/ft of 3/8-in. liquid line above or below 15 ft respectively.

EXAMPLE:

To calculate additional charge required for a 25-ft line set:

25 ft - 15 ft = 10 ft X 0.6 oz/ft = 6 oz of additional charge

XV. FINAL CHECKS

IMPORTANT: Before leaving job, be sure to do the following:

1.Securely fasten all panels and covers.

2.Tighten service valve stem caps to 1/12-turn past finger tight.

3.Leave User's Manual with owner. Explain system operation and periodic maintenance requirements outlined in manual.

4.Fill out Dealer Installation Checklist and place in customer file.

5. Refer to Table 4. Find the point where required subcooling

 

CARE AND MAINTENANCE

temperature intersects measured liquid service valve pres-

 

For continuing high performance and to minimize possible equip-

sure.

 

6. To obtain required subcooling temperature at a specific

 

ment failure, periodic maintenance must

be performed on this

 

equipment.

 

 

liquid line pressure, add refrigerant if liquid line tempera-

 

 

 

 

 

 

 

ture is higher than indicated or reclaim refrigerant if

 

Frequency of maintenance may vary depending upon geographic

temperature is lower. Allow a tolerance of ± 3°F.

 

areas, such as coastal applications.

 

© 1997 Bryant Heating & Cooling Systems 7310 W. Morris St. Indianapolis, IN 46231

Ð12Ð

Printed in U.S.A.

663c181

Catalog No. 5366-300

Image 12
Contents Safety Considerations → Installation RecommendationsInstallation Check Equipment and JOB Site Unpack Unit→ II. Install on a SOLID, Level Mounting PAD DimensionsVI. Remove Indoor CHECK-FLO-RATER Piston and Install TXV → III. Clearance Requirements→ VII. Check Outdoor CHECK-FLO-RATER Piston → VIII. Check Defrost ThermostatIX. Make Piping Connections → ÐLiquid Service Valve Route Ground and Power Wires→ Ðaccessory Usage Make Electrical ConnectionsConnect Ground and Power Wires XII. Install Electrical AccessoriesXIII. START-UP → XI. Compressor Crankcase HeaterÐ6Ð VAC COM Not Used Trouble Optional Outdoor Sensor ConnectionÐ7Ð Pump ThermostatsÐ8Ð Ð9Ð Ð10Ð Wiring Diagram Notes Ðrequired LIQUID-LINE Temperature F Care and MaintenanceÐdefrost Control SPEED-UP Timing Sequence XIV. Check Charge

663C specifications

The Bryant 663C is a high-efficiency gas furnace designed to deliver exceptional comfort and reliability in residential heating. As part of the Bryant lineup, it combines advanced technology with durable construction, ensuring homeowners can enjoy warmth during the coldest months while also being energy-efficient.

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The 663C is equipped with a two-stage heating system, which allows it to operate at different levels of output depending on the heating demand. This functionality provides enhanced comfort by eliminating temperature swings and maintaining a consistent indoor environment. In addition, the variable-speed blower motor adjusts the airflow based on the heating requirements, further optimizing efficiency and comfort.

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Durability is another critical aspect of the Bryant 663C. Constructed with a stainless steel heat exchanger, this furnace not only ensures optimal heat transfer but also resists corrosion, enhancing its lifespan. In addition, the inclusion of a durable cabinet and a heavy-duty blower motor offers further protection and reliability, making it a long-lasting investment for any homeowner.

Overall, the Bryant 663C stands out in the competitive market of heating systems due to its impressive efficiency, advanced features, and a commitment to comfort and longevity. Whether for new constructions or retrofitting an existing home, the 663C is an excellent choice for those seeking a reliable and energy-efficient gas furnace.