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Compliance & Safety
Regulatory Compliance & Safety Information for Triton Products
Compliance Home ATM Compliance FAQs Power Requirements ATMs
Typical ATM Power Requirements for Triton ATMs
Values on this page are worst case for typical configurations. This data is intended to help those performing power cost studies. They may also be used for selecting surge suppressors and UPS. Values for worst-case current load were determine by evaluating each dispenser /ATMs combination and using the worst case load values. The actual values that you machine requires may be different than the listed values.
FT5XX Power Requirements.
Values taken during TUV safety evaluations. These are worst-case requirements that occurred while the ATM was dispensing. The “typical” configuration was a base model FT51XX. These values will vary between FT51XX ATMs..
[ Ref. as of 11/12/03
]
Volts (V) |
Power (W) |
Current (A) |
108 |
146 |
1.39 |
120 |
147 |
1.30 |
220 |
169 |
0.89 |
230 |
161 |
0.85 |
240 |
160 |
0.82 |
RL51XX Power Requirements (single power supply models)
Values taken during TUV safety evaluations. These are worst-case requirements that occurred while the ATM was dispensing. The “typical” configuration was a base model with a single power supply (i.e. used a TDM-100) and included a high topper. These values may vary between machines. [ Ref. as of 11/18/05
]
Volts (V) |
Power (W) |
Current (A) |
108 |
45.5 |
0.64 |
120 |
47.0 |
0.61 |
220 |
50.1 |
0.34 |
230 |
56 |
0.46 |
240 |
49.9 |
0.37 |
RL51XX Power Requirements (dual power supply models)
Values taken during TUV safety evaluations. These are worst-case requirements that occurred while the ATM was dispensing. The “typical” configuration was a base model with a dual power supply (i.e. SDD, NMD-50, etc.. ) and included a high topper. These values may vary between machines. [ Ref. as of 11/18/05
]
Volts (V) |
Power (W) |
Current (A) |
108 |
80.5 |
0.78 |
120 |
108 |
0.79 |
220 |
116 |
0.63 |
230 |
109 |
0.66 |
240 |
121 |
0.53 |
RT2xx:
During TUV safety evaluations, these values are taken while the ATM was in idling mode with optional AC heater fan assembly and different power supply installed. These values may vary between machines. [ Ref. as of 12/10/04
]
Volts (V) |
Power (W) |
Current (A) |
100 |
209 |
2.24 |
120 |
265 |
2.23 |
220 |
249 |
1.18 |
230 |
266 |
1.20 |
240 |
284 |
1.22 |
264 |
330 |
1.29 |
Volts (V) |
Power (W) |
Current (A) |
100 |
202 |
2.18 |
120 |
263 |
2.33 |
220 |
253 |
1.18 |
230 |
262 |
1.19 |
240 |
278 |
1.24 |
264 |
321 |
1.27 |
91xx: Power Requirements (single power supply models)
Values taken during TUV safety evaluations. These are worst-case requirements that occurred while the ATM was dispensing. The “typical” configuration was a base model with a single power supply (i.e. used a TDM-100) and included a high topper. These values may vary between machines. [ Ref. as of 05/27/05
]
Volts (V) |
Power (W) |
Current (A) |
108 |
45.5 |
0.64 |
120 |
47.0 |
0.61 |
220 |
50.1 |
0.34 |
230 |
56.0 |
0.46 |
240 |
49.9 |
0.37 |
254 |
51.6 |
0.36 |
Power Requirements (dual power supply models)
Values taken during TUV safety evaluations. These are worst-case requirements that occurred while the ATM was dispensing. The “typical” configuration was a base model with a dual power supply (i.e. SDD, NMD-50, etc.. ) and included a high topper. These values may vary between machines.
Volts (V) |
Power (W) |
Current (A) |
108 |
80.5 |
0.78 |
120 |
108 |
0.79 |
220 |
116 |
0.63 |
230 |
109 |
0.66 |
240 |
121 |
0.53 |
254 |
125 |
0.59 |
With Mean Well power supply model PQ-1000TR and let ATM start up cycling through functions.
Volts (V) |
Power (W) |
Current (A) |
100 |
105 |
1.6 |
120 |
106 |
2.16 |
230 |
127 |
1.02 |
240 |
130 |
1.13 |
254 |
129 |
0.95 |
97xx: The unit was connected to a variable voltage as indicated and then operated normally under the conditions noted below until well warmed. The input current and average power were measured. [ Ref. as of 04/26/02 ]
| Operating Condition | Volt (V) | Freq (Hz) | Current (A) | Power (W) |
| 9700 Dispensing | 108 | 60 | 1.4 | 100 |
| 9700 Printing | 108 | 60 | 0.6 | 48 |
| 9700 Dispensing | 254 | 50 | 0.78 | 109 |
| 9700 Printing | 254 | 50 | 0.42 | 57.5 |
| 9700 Dispensing | 240 | 50 | 0.82 | 109 |
| 9700 Printing | 240 | 50 | .043 | 65 |
| 9700 Dispensing | 120 | 60 | 1.34 | 107 |
| 9700 Printing | 120 | 50 | 0.65 | 60 |
| 9710 Printing | 240 | 50 | 0.51 | 77 |
| 9710 Dispensing | 240 | 50 | 0.419 | 59 |
| 9710 Printing | 120 | 60 | 0.847 | 73.5 |
| 9710 Dispensing | 120 | 60 | 0.657 | 55.7 |
| 9710 Printing | 240 | 50 | 0.5 | 87 |
| 9710 Dispensing | 240 | 50 | 0.31 | 49 |
| 9710 Printing | 120 | 60 | 0.532 | 45.4 |
| 9710 Dispensing | 120 | 60 | 1.06 | 93 |
All 97xx use Seiko printer and each model includes different dispenser. 9700 with SDD, 9710 with MiniMech 10 and 9705 with TDM-100 dispenser.
98xx:
The unit was connected to a variable voltage as indicated and then operated normally under the conditions noted below until well warmed. The input current and average power were measured. [ Ref. as of 07/12/02
]
| Operating Condition | Volt (V) | Freq (Hz) | Current (A) | Power (W) |
| 9850 Dispensing (NMD-50) | 120 | 60 | 1.62 | 126 |
| 9850 Dispensing (NMD-50) | 240 | 60 | 1.1 | 140 |
| 9850 Dispensing (NMD-50) | 240 | 50 | 1.1 | 137 |
| 9800 Dispensing (SDD) | 120 | 60 | 1.91 | 130 |
| 9800 Dispensing (SDD) | 240 | 50 | 1.28 | 144 |
| 9840 Dispensing (TDM-100) | 120 | 60 | 1.46 | 166 |
| 9840 Dispensing (TDM-100) | 240 | 50 | 1.24 | 140 |
If you have further compliance specific questions, please direct them to Compliance@trtn.com. . If you have technical support questions please contact Triton Tech Support.