TSI definitions, TSI functions, and major TSI measurement points are detailed:
Turbine safety monitoring system TSI
Bently Nevada was acquired by GE in 2002 and became a product of GE, under the GE Inspection and Control Technologies business unit. The current mainstream series is Bently 3500.
The highly modular design of the bently 3500 system includes:
1. 3500/05 instrument frame (required)
2. One or two 3500/15 power supplies (required)
3. 3500/20 frame interface module (required)
4, one or two 3500/25 keyer module (optional)
5, 3500 frame configuration software (required)
6. One or more 3500/XX monitor modules (required)
7, One or more 3500/32 Relay Modules or 3500/34 Triple Redundant Relay Modules (optional)
8, One or more 3500/92 communication gateway modules (optional)
9. 3500/93, 3500/94, or 3500/95 display unit or 3500 operator display software running on a compatible PC (optional)
Internal or external intrinsically safe barriers, or electrically insulated devices for hazardous area installations. (Optional)
In 2009, Enerson acquired Epro Corporation. Subsequently, on the basis of MMS6000, upgraded and developed the CSI6500 system. Therefore, the brand some people call Philips, some people call Epro, some people call Enerson, are the same meaning, some customers are accustomed to the old name, along the down only!
Due to the Epro technology line of cards, each type is different, the cost of spare parts is high, the competitive advantage is not enough. Enerson upgraded and developed the AMS6500 ATG, where all TSI measurement points are measured by the same common measurement card. In addition, Enerson also developed the CSI6300 as an overspeed protection chassis to meet SIL3.
TSI brand from the cost-effective, stability and reliability of all aspects of their own plant is the best, regardless of which brand, the measurement principle is similar. Mainly eddy current sensors, speed sensors, magnetoresistive sensors, Hall sensors, LVDT and so on.