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Specifications
• Input: Accepts 1 non-contacting 3300 NSv Proximity Probe and extension cable.
• Power: Requires +12 to +35 Vdc input at the transmitter terminal.
• 4 to 20 mA Signal Output: 4 to 20 mAdc over specified full-scale range in 2-wire configuration.
• 4 to 20 mA Loop Accuracy: Within ±1.5% over specified full-scale range. Accuracy is rated from the TEST signal input to the voltage measured across a 250 Ω loop resistance.
• Probe Gap: Probe must be gapped between 0.5 and 1.75 mm (20 and 55 mils) from target to ensure full-scale range.
• Maximum Loop Resistance: 1,000 Ω including cable at 35 Vdc.
• Current Limiting: 23 mA typical.
• Zero and Span: Non-interacting external adjustments.
• NOT OK/Signal Defeat: Signal output will go to less than 3.6 mA within 100 µs after a Not OK condition occurs. Signal output is restored within 2-3 seconds after the Not OK condition is removed.
• Power-up Inhibit: Signal output stays at less than 3.6 mA (NOT O.K.) for 2 to 3 seconds after power is applied. Transients may be observed when the device goes O.K.
• Proximitor Sensor Output: Compatible with ungrounded, portable test equipment. When using grounded, ac-powered test equipment, use the 122115-01 Test Adapter for signal isolation.
• Output Impedance: Prox Out has a 10 kΩ output impedance calibrated for a 10 MΩ load.
• Prox Out Linear Range: 1.4 mm (55 mils). Begins at approximately 0.25 mm (10 mils) from target surface.
• Prox Out Incremental Scale Factor: 7.87 mV/µm (200 mV/mil) ± 6.5% typical including interchangeability errors when measured in increments of 0.25 mm (10 mils) over the linear range.
Description
The 3500/22M Transient Data Interface (TDI) is the interface between the 3500 monitoring system and compatible software (System 1* Condition Monitoring and Diagnostic software and 3500 System Configuration software). The TDI combines the function of a 3500/20 Rack Interface Module (RIM) with the data collection capability of a communication processor such as TDXnet. The TDI resides in the slot adjacent to the power supplies of a 3500 rack. It interfaces with M series monitors (3500/40M, 3500/42M, etc.) to continuously collect steady state and transient dynamic (waveform) data and pass this data through an Ethernet link to the host software. Refer to the Compatibility section at the end of this document for more information. Static data capture capability is standard with the TDI. However, using an optional Channel Enabling Disk will allow the TDI to capture dynamic and high-resolution transient data as well. The TDI incorporates the communication processor function within the 3500 rack. Although the TDI provides certain functions common to the entire rack, it is not part of the critical monitoring path and has no effect on the proper, normal operation of the overall monitor system for automatic machinery protection. Every 3500 rack requires one TDI or RIM, which always occupies Slot 1 (next to the power supplies).
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| T8100C | F7131 | DS200PCCAG5ACB | P0972VA ATS |
| T8833C | F7133 | DS200LDCCH1 DS200LDCCH1ALA | P0903CW |
| T8121C | F7553 | IC693BEM340 | FBM215 |
| TC20902 | F8621A | IS200TRLYH1BED | FBM201 P0914SQ |
| T8841 | F8628X | IS2020RKPSG3A | BO123HE |
| T83124C | F8641 | DS200DDTBG2ABB | P0972VA |
| T8153C | F8650 | IC752WFC555-EC | FBM237 P0914XS |
| TC32301 | F8650E | 531X123PCHACG1 | FBI10E |
| T8201 | H7506 | DS200TCQAG1BGE | FBM242 P0916TA |
| T8295 | F1DI1601 | DS3800NGDD1C1B | FBM207c |
| T8801C | F2DO1602 | IC670PBI001-BE | FBM204 |
| T8846C | F3AIO8/401 | IS200TNH1A | FBM219 P0916RH |
Specifications
• Input: Accepts 1 non-contacting 3300 NSv Proximity Probe and extension cable.
• Power: Requires +12 to +35 Vdc input at the transmitter terminal.
• 4 to 20 mA Signal Output: 4 to 20 mAdc over specified full-scale range in 2-wire configuration.
• 4 to 20 mA Loop Accuracy: Within ±1.5% over specified full-scale range. Accuracy is rated from the TEST signal input to the voltage measured across a 250 Ω loop resistance.
• Probe Gap: Probe must be gapped between 0.5 and 1.75 mm (20 and 55 mils) from target to ensure full-scale range.
• Maximum Loop Resistance: 1,000 Ω including cable at 35 Vdc.
• Current Limiting: 23 mA typical.
• Zero and Span: Non-interacting external adjustments.
• NOT OK/Signal Defeat: Signal output will go to less than 3.6 mA within 100 µs after a Not OK condition occurs. Signal output is restored within 2-3 seconds after the Not OK condition is removed.
• Power-up Inhibit: Signal output stays at less than 3.6 mA (NOT O.K.) for 2 to 3 seconds after power is applied. Transients may be observed when the device goes O.K.
• Proximitor Sensor Output: Compatible with ungrounded, portable test equipment. When using grounded, ac-powered test equipment, use the 122115-01 Test Adapter for signal isolation.
• Output Impedance: Prox Out has a 10 kΩ output impedance calibrated for a 10 MΩ load.
• Prox Out Linear Range: 1.4 mm (55 mils). Begins at approximately 0.25 mm (10 mils) from target surface.
• Prox Out Incremental Scale Factor: 7.87 mV/µm (200 mV/mil) ± 6.5% typical including interchangeability errors when measured in increments of 0.25 mm (10 mils) over the linear range.
Description
The 3500/22M Transient Data Interface (TDI) is the interface between the 3500 monitoring system and compatible software (System 1* Condition Monitoring and Diagnostic software and 3500 System Configuration software). The TDI combines the function of a 3500/20 Rack Interface Module (RIM) with the data collection capability of a communication processor such as TDXnet. The TDI resides in the slot adjacent to the power supplies of a 3500 rack. It interfaces with M series monitors (3500/40M, 3500/42M, etc.) to continuously collect steady state and transient dynamic (waveform) data and pass this data through an Ethernet link to the host software. Refer to the Compatibility section at the end of this document for more information. Static data capture capability is standard with the TDI. However, using an optional Channel Enabling Disk will allow the TDI to capture dynamic and high-resolution transient data as well. The TDI incorporates the communication processor function within the 3500 rack. Although the TDI provides certain functions common to the entire rack, it is not part of the critical monitoring path and has no effect on the proper, normal operation of the overall monitor system for automatic machinery protection. Every 3500 rack requires one TDI or RIM, which always occupies Slot 1 (next to the power supplies).
More Products
| T8100C | F7131 | DS200PCCAG5ACB | P0972VA ATS |
| T8833C | F7133 | DS200LDCCH1 DS200LDCCH1ALA | P0903CW |
| T8121C | F7553 | IC693BEM340 | FBM215 |
| TC20902 | F8621A | IS200TRLYH1BED | FBM201 P0914SQ |
| T8841 | F8628X | IS2020RKPSG3A | BO123HE |
| T83124C | F8641 | DS200DDTBG2ABB | P0972VA |
| T8153C | F8650 | IC752WFC555-EC | FBM237 P0914XS |
| TC32301 | F8650E | 531X123PCHACG1 | FBI10E |
| T8201 | H7506 | DS200TCQAG1BGE | FBM242 P0916TA |
| T8295 | F1DI1601 | DS3800NGDD1C1B | FBM207c |
| T8801C | F2DO1602 | IC670PBI001-BE | FBM204 |
| T8846C | F3AIO8/401 | IS200TNH1A | FBM219 P0916RH |
