BadAss BA-4530-360 Performance Test Data
Magnets Motor Wind Motor Kv No-Load Current Motor Resistance I Max P Max (6S)
14-Pole 12-Turn Delta 360 RPM/Volt Io = 1.82 Amps @ 10v Rm = 0.019 Ohms 90 Amps 2000 W
 
Stator Outside Diameter Body Length Total Shaft Length Shaft Diameter Motor Weight
12-Slot 55.0 mm, 2.165 in. 62.3 mm, 2.453 in. 85.0 mm, 3.346 in. 8.00 mm, 0.315 in. 525 gm, 18.52 oz
 
Test Data From Input 8.0 V 10.0 V 12.0V 14.0V Measured Kv value Measured Rm Value
Sample Motor Io Value 1.752 A 1.821 A 1.923 A 2.024 A 355 RPM/Volt @ 10V 0.0191 Ohms
 
5-cell Li-Po Test Data
Prop Prop Li-Po Input Motor Watts Prop Pitch Thrust Thrust Thrust Eff.
Manf. Size Cells Voltage Amps Input RPM Speed Grams Ounces Grams/W
APC 16x10-E 5 18.5 33.99 628.9 5,941 56.3 3285 115.87 5.22
APC 16x12-E 5 18.5 45.81 847.4 5,808 66.0 3059 107.90 3.61
APC 17x8-E 5 18.5 35.76 661.6 5,949 45.1 3734 131.71 5.64
APC 17x10-E 5 18.5 44.15 816.8 5,841 55.3 3975 140.21 4.87
APC 17x12-E 5 18.5 47.51 879.0 5,644 64.1 3784 133.48 4.30
APC 18x8-E 5 18.5 35.96 665.3 5,909 44.8 4075 143.74 6.12
APC 18x10-E 5 18.5 45.30 838.0 5,819 55.1 4619 162.93 5.51
APC 18x12-E 5 18.5 65.88 1218.8 5,525 62.8 4412 155.63 3.62
APC 19x8-E 5 18.5 54.12 1001.1 5,684 43.1 5283 186.35 5.28
APC 19x10-E 5 18.5 52.99 980.3 5,700 54.0 5294 186.74 5.40
APC 19x12-E 5 18.5 62.48 1155.8 5,564 63.2 5662 199.72 4.90
APC 20x8-E 5 18.5 55.73 1031.0 5,656 42.8 5770 203.53 5.60
APC 20x10-E 5 18.5 65.79 1217.1 5,511 52.2 6115 215.70 5.02
APC 20x11-E 5 18.5 70.34 1301.3 5,444 56.7 6198 218.63 4.76
APC 20x13-E 5 18.5 70.86 1311.0 5,293 65.2 6129 216.19 4.68
APC 20x15-E 5 18.5 91.03 1684.0 5,106 72.5 5655 199.47 3.36
BadAss 18x8-EW 5 18.5 37.06 685.6 5,884 44.6 3991 140.78 5.82
BadAss 18x10-EW 5 18.5 49.31 912.1 5,667 53.7 4710 166.14 5.16
BadAss 19x8-EW 5 18.5 45.27 837.5 5,743 43.5 4835 170.55 5.77
BadAss 19x10-EW 5 18.5 54.45 1007.4 5,580 52.8 5240 184.84 5.20
BadAss 20x8-EW 5 18.5 52.30 967.5 5,620 42.6 5354 188.86 5.53
BadAss 20x10-EW 5 18.5 62.53 1156.7 5,470 51.8 6069 214.08 5.25
BadAss 20x12-EW 5 18.5 72.52 1341.7 5,305 60.3 6366 224.55 4.74
BadAss 21x8-EW 5 18.5 57.74 1068.3 5,525 41.9 5940 209.53 5.56
BadAss 21x10-EW 5 18.5 73.97 1368.4 5,294 50.1 6839 241.24 5.00
BadAss 21x12-EW 5 18.5 91.44 1691.6 5,124 58.2 7266 256.30 4.30
BadAss 22x8-EW 5 18.5 60.80 1124.9 5,505 41.7 6141 216.62 5.46
BadAss 23x8-EW 5 18.5 72.83 1347.3 5,309 40.2 6910 243.74 5.13
BadAss 24x8-EW 5 18.5 92.65 1714.0 5,075 38.4 8218 289.88 4.79
 
6-cell Li-Po Test Data
Prop Prop Li-Po Input Motor Watts Prop Pitch Thrust Thrust Thrust Eff.
Manf. Size Cells Voltage Amps Input RPM Speed Grams Ounces Grams/W
APC 15x10-E 6 22.2 43.62 968.3 7,056 66.8 3754 132.42 3.88
APC 16x8-E 6 22.2 48.21 1070.2 6,974 52.8 4476 157.89 4.18
APC 16x10-E 6 22.2 53.55 1188.7 6,879 65.1 4526 159.65 3.81
APC 16x12-E 6 22.2 64.34 1428.4 6,730 76.5 4110 144.98 2.88
APC 17x7-E 6 22.2 38.33 850.9 7,100 47.1 4634 163.46 5.45
APC 17x8-E 6 22.2 52.10 1156.6 6,910 52.3 5076 179.05 4.39
APC 17x10-E 6 22.2 61.99 1376.2 6,740 63.8 5329 187.97 3.87
APC 17x12-E 6 22.2 70.72 1570.1 6,629 75.3 5173 182.47 3.29
APC 18x8-E 6 22.2 52.56 1166.8 6,900 52.3 5865 206.88 5.03
APC 18x10-E 6 22.2 58.95 1308.7 6,640 62.9 6010 212.00 4.59
APC 18x12-E 6 22.2 90.25 2003.5 6,308 71.7 5937 209.42 2.96
APC 19x8-E 6 22.2 72.83 1616.8 6,425 48.7 6850 241.63 4.24
APC 19x10-E 6 22.2 72.96 1619.7 6,585 62.4 7171 252.95 4.43
APC 19x12-E 6 22.2 86.23 1914.2 6,379 72.5 7508 264.84 3.92
APC 20x8-E 6 22.2 73.81 1638.6 6,410 48.6 7565 266.85 4.62
APC 20x10-E 6 22.2 90.88 2017.4 6,292 59.6 8130 286.78 4.03
BadAss 16x8-EW 6 22.2 39.53 877.5 7,084 53.7 4102 144.69 4.67
BadAss 16x10-EW 6 22.2 44.81 994.8 7,025 66.5 4406 155.42 4.43
BadAss 17x6-EW 6 22.2 40.44 897.7 7,070 40.2 4393 154.96 4.89
BadAss 17x8-EW 6 22.2 45.90 1019.0 7,005 53.1 4979 175.63 4.89
BadAss 17x10-EW 6 22.2 55.40 1229.9 6,820 64.6 5336 188.22 4.34
BadAss 18x8-EW 6 22.2 50.94 1130.9 6,821 51.7 5536 195.28 4.90
BadAss 18x10-EW 6 22.2 68.54 1521.7 6,593 62.4 6422 226.53 4.22
BadAss 19x8-EW 6 22.2 62.84 1395.1 6,695 50.7 6739 237.71 4.83
BadAss 19x10-EW 6 22.2 76.37 1695.3 6,500 61.6 7259 256.05 4.28
BadAss 20x8-EW 6 22.2 74.06 1644.0 6,509 49.3 7464 263.28 4.54
BadAss 20x10-EW 6 22.2 85.65 1901.5 6,321 59.9 8131 286.81 4.28
BadAss 20x12-EW 6 22.2 101.50 2253.2 6,143 69.8 8647 305.01 3.84
BadAss 21x8-EW 6 22.2 80.51 1787.4 6,419 48.6 8249 290.97 4.62
BadAss 21x10-EW 6 22.2 102.49 2275.2 6,122 58.0 9256 326.50 4.07
BadAss 22x8-EW 6 22.2 85.63 1900.9 6,309 47.8 8457 298.31 4.45
MAS 15x7x3 6 22.2 38.05 844.7 7,122 47.2 4279 150.94 5.07
MAS 16x8x3 6 22.2 45.86 1018.1 7,020 53.2 5040 177.78 4.95
MAS 16x10x3 6 22.2 59.81 1327.8 6,812 64.5 5927 209.07 4.46
 
8-cell Li-Po Test Data
Prop Prop Li-Po Input Motor Watts Prop Pitch Thrust Thrust Thrust Eff.
Manf. Size Cells Voltage Amps Input RPM Speed Grams Ounces Grams/W
APC 14x6-E 8 29.6 29.45 871.8 9,630 54.7 4062 143.28 4.66
APC 14x7-E 8 29.6 46.42 1373.9 9,340 61.9 4614 162.75 3.36
APC 14x8.5-E 8 29.6 45.60 1349.8 9,354 75.3 4570 161.20 3.39
APC 14x10-E 8 29.6 46.63 1380.2 9,339 88.4 4517 159.33 3.27
APC 14x12-E 8 29.6 70.57 2088.7 8,944 101.6 4233 149.31 2.03
APC 15x6-E 8 29.6 44.52 1317.9 9,190 52.2 5261 185.58 3.99
APC 15x7-E 8 29.6 43.91 1299.7 9,395 62.3 5472 193.02 4.21
APC 15x8-E 8 29.6 49.84 1475.2 9,284 70.3 5292 186.67 3.59
APC 15x10-E 8 29.6 80.92 2395.3 8,765 83.0 5549 195.74 2.32
APC 16x7-E 8 29.6 64.39 1906.0 9,031 59.9 6929 244.41 3.64
APC 16x8-E 8 29.6 89.86 2660.0 8,629 65.4 6731 237.43 2.53
APC 16x10-E 8 29.6 97.45 2884.5 8,468 80.2 6852 241.70 2.38
APC 17x7-E 8 29.6 65.64 1942.9 9,010 59.7 7780 274.43 4.00
APC 17x8-E 8 29.6 92.91 2750.1 8,570 64.9 7756 273.58 2.82
BadAss 14x8-EW 8 29.6 39.96 1182.8 9,444 71.5 4639 163.64 3.92
BadAss 14x10-EW 8 29.6 53.65 1588.1 9,025 85.5 4557 160.74 2.87
BadAss 15x7-EW 8 29.6 43.33 1282.5 9,380 62.2 5429 191.50 4.23
BadAss 15x8-EW 8 29.6 49.84 1475.2 9,284 70.3 5292 186.67 3.59
BadAss 15x10-EW 8 29.6 68.34 2022.7 8,985 85.1 5437 191.78 2.69
BadAss 16x6-EW 8 29.6 47.88 1417.2 9,125 51.8 6065 213.94 4.28
BadAss 16x7-EW 8 29.6 54.76 1621.0 8,991 59.6 6311 222.61 3.89
BadAss 16x8-EW 8 29.6 68.06 2014.5 8,984 68.1 6601 232.84 3.28
BadAss 16x10-EW 8 29.6 78.98 2337.7 8,787 83.2 6410 226.11 2.74
BadAss 17x6-EW 8 29.6 71.53 2117.3 8,895 50.5 7201 254.01 3.40
BadAss 17x8-EW 8 29.6 77.42 2291.6 8,816 66.8 8209 289.56 3.58
BadAss 17x10-EW 8 29.6 93.73 2774.3 8,400 79.5 7999 282.16 2.88
BadAss 18x8-EW 8 29.6 90.05 2665.6 8,565 64.9 9084 320.43 3.41
MAS 13x8x3 8 29.6 38.35 1135.0 9,517 72.1 4549 160.46 4.01
MAS 14x7x3 8 29.6 47.85 1416.3 9,337 61.9 5726 201.98 4.04
MAS 14x9x3 8 29.6 55.80 1651.6 9,026 76.9 6343 223.74 3.84
MAS 15x7x3 8 29.6 59.74 1768.4 8,954 59.4 6934 244.59 3.92
MAS 16x8x3 8 29.6 74.20 2196.2 8,886 67.3 8262 291.43 3.76
MAS 16x10x3 8 29.6 96.66 2861.0 8,553 81.0 9580 337.92 3.35
                     
                     
2021 Innov8tive Designs, Inc.
This chart, and the data contained within it, are the property of Innov8tive Designs, Inc., and may not be reproduced without permission from the author.
Propeller Chart Color Code Explanation
  The prop is to small to get good performance from the motor. (Less than 50% power)
  The prop is sized right to get good power from the motor. (50 to 80% power)
  The prop can be used, but full throttle should be kept to short bursts. (80 to 100% power)
  The prop is too big for the motor and should not be used. (Over 100% power)
PLEASE NOTE:
The Data contained in this Prop Chart is based on actual measurements, taken in a controlled test environment, at an altitude of
584 feet above sea level. The test voltages used are based on the standard output of a Li-Po battery under load, which is 3.70 volts
per cell. If you are using a battery that is larger in capacity than normal, or has a very high C-rating, then your actual voltages will
be higher than those shown in the chart, and this will result in a higher current and power value for every prop used. You should
always test your actual power system with a watt meter before flying your model to make sure that you are not exceeding the
recommended current and power ratings of the motor being used. The prop recommendations in this chart assume that the motor
receives adequate cooling throughout its operation. If your motor is being used inside a cowl or fuselage, you must ensure that
the motor receives sufficient airflow, and does not get too hot during operation. It is always best to use a prop size that pulls no
more than 80% of the motors maximum recommended current value to ensure safe operation under all conditions.