Tecumseh RGA5480CXA User Manual

Performance Data Sheet

RGA5480CXA

General Information

Model RGA5480CXA Refrigerant R407C
Test Condition ASHRAE Test Voltage 115V ~ 60HZ
Return Gas 18.3°C (65°F) RETURN GAS Motor Type PSC

Performance Information

Evap Temp (°F)

-15

-10

-5

0

5

10

15

20

Condensing Temperature (°F)

80 90 100 110 120 130 140 150

Btu/h 2340 2320
Watts 397 416
Amps 3.98 4.13

Lb/h 34.7 34.6

Btu/h 2680 2610 2540
Watts 407 430 452
Amps 4.10 4.28 4.47

Lb/h 37.8 37.5 37.3

Btu/h 3070 2960 2850 2730
Watts 417 442 469 496
Amps 4.20 4.41 4.63 4.86

Lb/h 41.6 41.2 40.8 40.4

Btu/h 3530 3370 3210 3040 2870
Watts 424 454 484 514 546
Amps 4.27 4.53 4.78 5.04 5.30

Lb/h 46.2 45.7 45.2 44.6 44.1

Btu/h 4030 3830 3620 3410 3200
Watts 431 464 498 532 567
Amps 4.33 4.62 4.91 5.20 5.50

Lb/h 51.6 50.9 50.2 49.6 48.9

Btu/h 4600 4350 4100 3840 3580 3320 3050
Watts 436 473 510 548 587 626 665
Amps 4.37 4.69 5.02 5.34 5.67 6.01 6.34

Lb/h 57.7 56.9 56.1 55.3 54.5 53.6 52.8

Btu/h 5230 4930 4630 4320 4020 3710 3390
Watts 439 480 521 563 605 648 691
Amps 4.40 4.75 5.11 5.46 5.83 6.19 6.57

Lb/h 64.5 63.6 62.7 61.7 60.8 59.8 58.8

Btu/h 5930 5580 5220 4870 4520 4160 3800 3440
Watts 440 485 531 576 622 669 716 763
Amps 4.40 4.79 5.18 5.57 5.97 6.37 6.77 7.18

Lb/h 72.1 71.1 70.0 68.9 67.9 66.8 65.7 64.5

Btu/h 6680 6280 5880 5480 5070 4670 4260 3850

25

30

35

40

45

50

55

Watts 440 489 538 588 638 688 739 790
Amps 4.40 4.81 5.24 5.66 6.09 6.52 6.96 7.40

Lb/h 80.4 79.3 78.1 76.9 75.7 74.5 73.2 72.0

Btu/h 7500 7050 6600 6140 5690 5240 4780 4320
Watts 438 491 544 598 652 706 760 816
Amps 4.37 4.82 5.28 5.73 6.19 6.66 7.13 7.61

Lb/h 89.5 88.2 86.9 85.6 84.2 82.9 81.5 80.1

Btu/h 8380 7880 7380 6880 6370 5870 5360 4860
Watts 433 491 548 606 664 722 781 840
Amps 4.33 4.82 5.30 5.79 6.28 6.78 7.28 7.79

Lb/h 99.3 97.9 96.4 95.0 93.5 92.1 90.6 89.1

Btu/h 9330 8780 8220 7670 7120 6560 6010 5450
Watts 427 489 550 612 674 737 799 862
Amps 4.28 4.80 5.31 5.84 6.36 6.89 7.42 7.96

Lb/h 110 108 107 105 104 102 100 98.7

Btu/h 10300 9740 9130 8530 7920 7320 6710 6110
Watts 418 484 551 617 683 749 816 883
Amps 4.22 4.76 5.31 5.87 6.42 6.98 7.55 8.12

Lb/h 121 119 118 116 114 113 111 109

Btu/h 11400 10800 10100 9450 8800 8140 7480 6830
Watts 408 478 549 619 690 760 831 902
Amps 4.14 4.72 5.30 5.88 6.47 7.06 7.66 8.27

Lb/h 133 131 129 128 126 124 122 120

Btu/h 12600 11900 11200 10400 9730 9030 8320 7610
Watts 394 469 544 619 694 769 844 920
Amps 4.05 4.66 5.27 5.89 6.51 7.13 7.76 8.40

Lb/h 145 144 142 140 138 136 134 132

COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW

C1 4.745782E+03 1.969055E+02 2.302118E+00 5.040787E+01
C2 1.737180E+02 -4.918503E+00 -4.059575E-02 1.206536E+00
C3 -1.517440E+01 2.837228E+00 2.480619E-02 -5.367561E-02
C4 1.280901E+00 -4.172543E-02 -3.414078E-04 1.460027E-02
C5 -1.002519E+00 8.375125E-02 6.814540E-04 -2.516997E-03
C6 3.976509E-03 -8.871576E-04 -9.254371E-06 2.952595E-05
C7 1.283154E-03 -1.187014E-04 1.060642E-06 -8.309148E-06
C8 -1.320412E-03 1.544165E-04 -4.992041E-07 6.688561E-06
C9 3.952029E-04 -5.536152E-05 -2.453412E-08 -1.402770E-06

C10 -6.272695E-05 1.215768E-05 9.036429E-08 -1.818282E-07

Value = C1 + C2 * Te + C4 * Te^2 + C7 * Te^3 + (C3 + C5 * Te + C8 * Te^2) * Tc + (C6 + C9 * Te) * Tc^2 + C10 * Tc^3

Te = Evaporator Temperature

Tc = Condensing Temperature

Performance Data Sheet

RGA5480CXA

General Information

Model RGA5480CXA Refrigerant R407C
Test Condition EN12900 ASERCOM Test Voltage 100V ~ 50HZ
Return Gas 10K (18°F) SUPERHEAT Motor Type PSC

Performance Information

Evap

Temp (°C)

-25

-23.3

-20

-15

-10

-6.7

-5

0

Condensing Temperature (°C)

30 40 50 60 70

Watts

(Capacity)

Watts (Power) 315

Amps 4.60
Watts

(Capacity)

Watts (Power) 323 365

Amps 4.65 4.88
Watts

(Capacity)

Watts (Power) 339 384

Amps 4.75 5.02
Watts

(Capacity)

Watts (Power) 357 408 472

Amps 4.89 5.21 5.71
Watts

(Capacity)

Watts (Power) 372 428 498 582

Amps 5.01 5.38 5.94 6.67
Watts

(Capacity)

Watts (Power) 379 439 513 603 706

Amps 5.09 5.49 6.08 6.85 7.80
Watts

(Capacity)

Watts (Power) 382 444 520 613 719

Amps 5.13 5.55 6.15 6.94 7.90
Watts

(Capacity)

Watts (Power) 390 456 539 639 755

Amps 5.23 5.70 6.35 7.19 8.21

547

599 512

710 616

905 797 672

1140 1010 861 700

1310 1170 1000 820 631

1410 1260 1080 887 683

1730 1560 1340 1110 858

Watts

5

7.2

10

15

COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW

C1 1.930790E+03 3.015690E+02 4.903520E+00
C2 7.908160E+01 8.096760E-01 -1.239780E-02
C3 4.046090E+00 9.380230E-02 -1.661970E-02
C4 1.300740E+00 -2.409410E-02 -2.731290E-04
C5 -1.294320E-01 -3.946400E-02 1.023550E-03
C6 -4.120510E-01 9.738800E-02 9.115450E-04
C7 6.793700E-03 8.750310E-04 0.000000E+00
C8 -8.486160E-03 -8.141390E-04 0.000000E+00
C9 -6.473140E-03 1.788970E-03 0.000000E+00

C10 1.932970E-03 -8.773180E-05 0.000000E+00

(Capacity)

Watts (Power) 395 465 554 662 787

Amps 5.31 5.83 6.54 7.43 8.50
Watts

(Capacity)

Watts (Power) 396 468 560 671 800

Amps 5.34 5.89 6.62 7.53 8.62
Watts

(Capacity)

Watts (Power) 398 472 566 681 816

Amps 5.38 5.96 6.71 7.65 8.77
Watts

(Capacity)

Watts (Power) 400 477 577 699 842

Amps 5.44 6.06 6.87 7.86 9.03

2110 1900 1650 1370 1070

2290 2070 1800 1500 1170

2540 2300 2000 1670 1320

3030 2750 2410 2030 1610

Value = C1 + C2 * Te + C4 * Te^2 + C7 * Te^3 + (C3 + C5 * Te + C8 * Te^2) * Tc + (C6 + C9 * Te) * Tc^2 + C10 * Tc^3

Te = Evaporator Temperature

Tc = Condensing Temperature

Performance Data Sheet

RGA5480CXA

General Information

Model RGA5480CXA Refrigerant R407C
Test Condition EN12900 ASERCOM Test Voltage 115V ~ 60HZ
Return Gas 10K (18°F) SUPERHEAT Motor Type PSC

Performance Information

Evap

Temp (°C)

-25

-23.3

-20

-15

-10

-6.7

-5

0

Condensing Temperature (°C)

30 40 50 60 70

Watts

(Capacity)

Watts (Power) 390

Amps 3.96
Watts

(Capacity)

Watts (Power) 401 445

Amps 4.01 4.39
Watts

(Capacity)

Watts (Power) 418 472

Amps 4.11 4.50
Watts

(Capacity)

Watts (Power) 440 507 566

Amps 4.28 4.69 5.31
Watts

(Capacity)

Watts (Power) 457 534 609 674

Amps 4.46 4.89 5.53 6.37
Watts

(Capacity)

Watts (Power) 466 548 633 710 770

Amps 4.59 5.03 5.68 6.54 7.60
Watts

(Capacity)

Watts (Power) 470 555 644 728 795

Amps 4.66 5.11 5.77 6.63 7.70
Watts

(Capacity)

Watts (Power) 480 571 672 773 863

Amps 4.87 5.34 6.02 6.90 7.99

664

729 631

866 761

1110 984 844

1390 1250 1070 896

1610 1440 1250 1040 832

1730 1550 1340 1120 895

2130 1910 1660 1380 1100

Watts

5

7.2

10

15

COEFFICIENTS CAPACITY POWER CURRENT MASS FLOW

C1 2.427430E+03 3.671820E+02 4.680740E+00
C2 1.009970E+02 5.718230E+00 3.174960E-02
C3 1.283550E+00 -2.239110E+00 -2.448040E-02
C4 1.641610E+00 1.049850E-01 2.989600E-04
C5 -3.307450E-01 -2.947450E-01 4.045060E-04
C6 -4.444510E-01 2.504840E-01 1.025200E-03
C7 8.223630E-03 1.570540E-03 0.000000E+00
C8 -1.247900E-02 -4.443290E-03 0.000000E+00
C9 -6.718100E-03 5.582260E-03 0.000000E+00

C10 2.220880E-03 -1.675770E-03 0.000000E+00

(Capacity)

Watts (Power) 489 584 694 809 920

Amps 5.10 5.59 6.29 7.19 8.30
Watts

(Capacity)

Watts (Power) 493 589 702 823 942

Amps 5.20 5.70 6.41 7.32 8.44
Watts

(Capacity)

Watts (Power) 498 594 711 839 968

Amps 5.34 5.85 6.57 7.49 8.62
Watts

(Capacity)

Watts (Power) 508 603 725 863 1010

Amps 5.59 6.13 6.87 7.81 8.96

2580 2320 2020 1690 1350

2810 2530 2200 1840 1470

3110 2800 2440 2050 1640

3710 3350 2930 2470 1980

Value = C1 + C2 * Te + C4 * Te^2 + C7 * Te^3 + (C3 + C5 * Te + C8 * Te^2) * Tc + (C6 + C9 * Te) * Tc^2 + C10 * Tc^3

Te = Evaporator Temperature

Tc = Condensing Temperature