Bryant 355MAV Gas Rate Cu Ft/Hr, Procedure 6-CHECK Safety Controls, Check Primary Limit Control

Page 57

Table 15—Gas Rate (Cu Ft/Hr)

SECONDS

 

SIZE OF TEST DIAL

 

SECONDS

 

SIZE OF TEST DIAL

 

FOR 1

1

 

2

 

5

FOR 1

1

 

2

 

5

REVOLUTION

Cu Ft

 

Cu Ft

 

Cu Ft

REVOLUTION

Cu Ft

 

Cu Ft

 

Cu Ft

10

360

 

720

 

1800

50

72

 

144

 

360

11

327

 

655

 

1636

51

71

 

141

 

355

12

300

 

600

 

1500

52

69

 

138

 

346

13

277

 

555

 

1385

53

68

 

136

 

340

14

257

 

514

 

1286

54

67

 

133

 

333

15

240

 

480

 

1200

55

65

 

131

 

327

16

225

 

450

 

1125

56

64

 

129

 

321

17

212

 

424

 

1059

57

63

 

126

 

316

18

200

 

400

 

1000

58

62

 

124

 

310

19

189

 

379

 

947

59

61

 

122

 

305

20

180

 

360

 

900

60

60

 

120

 

300

21

171

 

343

 

857

62

58

 

116

 

290

22

164

 

327

 

818

64

56

 

112

 

281

23

157

 

313

 

783

66

54

 

109

 

273

24

150

 

300

 

750

68

53

 

106

 

265

25

144

 

288

 

720

70

51

 

103

 

257

26

138

 

277

 

692

72

50

 

100

 

250

27

133

 

267

 

667

74

48

 

97

 

243

28

129

 

257

 

643

76

47

 

95

 

237

29

124

 

248

 

621

78

46

 

92

 

231

30

120

 

240

 

600

80

45

 

90

 

225

31

116

 

232

 

581

82

44

 

88

 

220

32

113

 

225

 

563

84

43

 

86

 

214

33

109

 

218

 

545

86

42

 

84

 

209

34

106

 

212

 

529

88

41

 

82

 

205

35

103

 

206

 

514

90

40

 

80

 

200

36

100

 

200

 

500

92

39

 

78

 

196

37

97

 

195

 

486

94

38

 

76

 

192

38

95

 

189

 

474

96

38

 

75

 

188

39

92

 

185

 

462

98

37

 

74

 

184

40

90

 

180

 

450

100

36

 

72

 

180

41

88

 

176

 

439

102

35

 

71

 

178

42

86

 

172

 

429

104

35

 

69

 

173

43

84

 

167

 

419

106

34

 

68

 

170

44

82

 

164

 

409

108

33

 

67

 

167

45

80

 

160

 

400

110

33

 

65

 

164

46

78

 

157

 

391

112

32

 

64

 

161

47

76

 

153

 

383

116

31

 

62

 

155

48

75

 

150

 

375

120

30

 

60

 

150

49

73

 

147

 

367

 

 

 

 

 

 

2.See thermostat manufacturer’s instructions for adjusting the heat anticipator and for varying heating cycle length. NOTE: When using an electronic thermostat, set cycle rate for 3 cycles per hr.

3.Return setup switch SW-2 to OFF position and replace thermostat on subbase.

PROCEDURE 6—CHECK SAFETY CONTROLS

A. Check Primary Limit Control

This control shuts off the combustion control system and energizes the air-circulating blower motor if furnace overheats.

1.The recommended method of checking this limit control is to gradually block off return air after furnace has been operating for a period of at least 5 minutes.

2.As soon as limit control has shut off burners, a 33 fault code will appear on control center.

3.The return-air opening should be unblocked to permit normal air circulation.

By using this method to check the limit control, it can be established that the limit is functioning properly and the furnace will operate safely if there is a restricted return-air supply or motor failure. If the limit control does not function during this test, the cause must be determined and corrected.

B. Check Pressure Switches

This control proves operation of the draft inducer. Check switch operation as follows:

1.Turn off 115-v power to furnace.

2.Remove control access door and disconnect inducer motor 12-pin wire harness at inducer motor.

—57—

Image 57
Contents Table of Contents Installation, Start-up, and Operating InstructionsLocation Safety Considerations IntroductionCodes and Standards Unit Size DimensionsClearances to Combustibles Installer Packet IncludesApplications Procedure 1-GENERAL Electrostatic Discharge ESD Precaution ProcedureProcedure 2-UPFLOW Applications Condensate Trap Location Factory-Shipped OrientationCondensate Trap Tubing Factory-Shipped Orientation Condensate Trap Tubing Alternate Upflow Orientation Condensate Trap Location Alternate Upflow OrientationProcedure 3-DOWNFLOW Applications Pressure Switch TubingCondensate Trap Field Drain Attachment Condensate Trap Freeze ProtectionCondensate Trap Tubing Downflow Tube Configuration Right-Hand Trap InstallationCondensate Trap Field Drain Attachment Construct a Working Platform Condensate Trap Field Drain AttachmentsAttic Location and Working Platform Horizontal Right Tube Configuration Furnace Location for Proper Condensate Drainage Location Procedure 1-GENERALProcedure 2-LOW-FIRE only Installation Prohibit Installation on BackProcedure 3-FURNACE Location Relative to Coolingequipment Procedure 4-HAZARDOUS LocationsInstallation Procedure 1-LEVELING Legs if Desired Furnace Plenum Opening Floor Opening Opening DimensionsProcedure 3-INSTALLATION in Horizontal Applications Floor and Plenum Opening DimensionsGeneral Requirements Procedure 4-AIR DuctsDuctwork Acoustical Treatment Supply Air ConnectionsReturn Air Connections Procedure 6-BOTTOM Closure Panel Procedure 5-FILTER ArrangementProcedure 7-GAS Piping Filter InformationBottom Filter Arrangement Maximum Capacity of Pipe Nominal Length of Pipe FTInternal Pipe Diameter Size Wiring Procedure 8-ELECTRICAL ConnectionsElectrical Data AccessoriesRemoval of Existing Furnaces from Common Vent Systems Procedure 9-DIRECT VentingUnit Wiring Diagram Combustion-Air and Vent Piping Control Center355MAV Variable Speed Furnace Control Opening Location Clearance FTCombustion-Air and Vent Pipe Connections Short Vent 5 to 8 ft System Altitude FT Maximum Allowable Pipe Length ft4001 to 5000‡ Intake Housing Plug Fitting Drain Roof Termination Preferred Concentric Vent and Combustion-Air RoofTermination Preferred Sidewall Termination of Less than 12 Procedure 10-CONDENSATE Drain Multiventing and Vent TerminationsGeneral Condensation Drain Protection ″ 25 mm Maximum TYP Sequence of Operation Example of Field Drain AttachmentProcedure 2-HEATING Mode Procedure 1-SELF-TEST ModeProcedure 3-HEATING MODE-TWO Stage Procedure 4-EMERGENCY Heat ModeProcedure 6-HEAT Pump Mode Procedure 5-COOLING ModeSingle-Speed Applications Two-Speed ApplicationsProcedure 8-COMPONENT Test Procedure 7-CONTINUOUS FAN ModeProcedure 10-DEHUMIDIFICATION Mode Procedure 9-BYPASS Humidifier ModeProcedure 11-ZONE Mode START-UP Procedures Procedure 1-GENERALProcedure 2-SELECT Setup Switch Positions Setup Switches SW Air Conditioning A/C Airflow Switch PositionAIR Setup Allowable Furnace Model Setup Switch Position TonsProcedure 3-PRIME Condensate Trap with Water Procedure 4-PURGE GAS LinesProcedure 5-ADJUSTMENTS Filling Condensate Trap Altitude AVG GAS Specific Gravity of Natural GAS Heat ValueAltitude United States Canada Redundant Automatic Gas Valve Set Temperature RiseSet Thermostat Heat Anticipator Altitude Derate Multiplier for U.S.AExample Altitude Percent Derate MultiplierCheck Pressure Switches Procedure 6-CHECK Safety ControlsGas Rate Cu Ft/Hr Check Primary Limit ControlAmp Draw Check with Ammeter Procedure 7-CHECKLISTCombustion and Vent Piping CHECKLIST-START-UP CHECKLIST-INSTALLATIONBook/Tab 1/6 Catalog No
Related manuals
Manual 12 pages 42.74 Kb

355MAV specifications

The Bryant 355MAV is a remarkable model that stands out in the HVAC (heating, ventilation, and air conditioning) industry for its efficiency, reliability, and advanced technology. This unit is specifically designed to provide homeowners with excellent comfort while maintaining energy efficiency, making it an ideal choice for residential applications.

One of the standout features of the Bryant 355MAV is its variable speed compressor. This technology allows the system to adjust its cooling output based on the current temperature needs of the home. By operating at multiple speed levels, the compressor can maintain a more consistent indoor climate while using significantly less energy than traditional single-speed systems. This capability translates to lower energy bills and enhanced comfort.

Additionally, the Bryant 355MAV integrates an advanced control system that offers precise temperature regulation. Homeowners can easily set their desired indoor conditions, and the thermostat will communicate with the system to ensure optimal performance. This smart technology not only enhances comfort but also extends the lifespan of the unit by preventing unnecessary strain during operation.

The 355MAV also features significant advancements in sound reduction technology. Designed with noise-absorbing materials and a quiet operation mode, this unit ensures that indoor comfort is maintained without the disruption of loud operational sounds. This makes it a perfect choice for residential settings, particularly in areas where noise sensitivity is a concern.

Energy efficiency is another key characteristic of the Bryant 355MAV. The unit is certified with a high Seasonal Energy Efficiency Ratio (SEER) rating, which means it meets strict energy consumption standards. This not only reflects its eco-friendliness but also contributes to significant savings on utility bills over time.

Moreover, the Bryant 355MAV uses environmentally friendly refrigerants that comply with EPA regulations, further solidifying its commitment to sustainability. This, combined with durable construction and a reliable warranty, ensures that homeowners can expect lasting performance from the system.

In conclusion, the Bryant 355MAV offers an impressive array of features, including a variable speed compressor, advanced control systems, sound reduction technology, and high energy efficiency. These characteristics make it an exceptional option for those seeking a reliable and efficient HVAC solution in their homes. With its commitment to comfort, savings, and sustainability, the Bryant 355MAV continues to be a popular choice among homeowners looking to enhance their indoor environments.