CC-TDOB01

Product Details

Product Description

Product Description
Brand:HONEYWELL
Type:CC-TDOB01
Origin: the United States
Warranty: 365 days
Colour: new/used
Shipping method: Courier delivery
Module of PLC, DCS, ESD system card, the card is a vibration monitoring system, steam turbine control system module, the advantages of the gas generator spare parts brand: Allen Bradley, BentlyNevada, ABB, Emerson Ovation, Honeywell DCS, Rockwell ICS Triplex, FOXBORO, Schneider PLC, GE Fanuc, Motorola, HIMA, TRICONEX, Prosoft etc. Various kinds of imported industrial parts
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While in the Speed Control mode, the Speed PID will control a turbine at the same speed or frequency regardless of the load it is supplying (up to the unit’s load capability). With this configuration, no form of droop or second controlling parameter is used by the PID for stability or control. Refer to Figure 3-13. All pertinent speed control parameters are available through Modbus communications. See Chapter 6 for a list of all Modbus parameters.
Frequency Control The following Frequency Control mode descriptions are based on the 505E program’s default settings. For information on how to change the 505E’s defaulted breaker logic, refer to Volume 2 of this manual. The Speed PID operates in a Frequency control mode when the generator breaker is closed and the utility tie breaker is open. In this mode the unit will operate at the same speed or frequency regardless of the load it is supplying (up to the unit’s load capability). Refer to Figure 3-13. When breaker positions result in the Speed PID switching to Frequency control, the speed setpoint is instantly stepped to the last turbine speed (frequency) sensed before Frequency control was selected. This allows a bumpless transfer between modes. If the last speed sensed was not at the ‘Rated Speed Setpoint’ (synchronous speed) setting, the speed setpoint will ramp to the ‘Rated Speed Setpoint’ setting at a defaulted rate of 1 rpm/sec (tunable through the Service mode). In the Frequency Control mode the speed setpoint can be varied with the Speed Setpoint Raise/Lower commands, as desired, to allow manual synchronization across a tie breaker to an infinite bus. See the Synchronization section in this chapter. For indication purposes, a relay can be programmed to energize when the unit is in Frequency control. Unit Load Control The 505E’s Speed PID can control two independent parameters when the generator breaker is closed; frequency when the generator is isolated, and unit load when the generator is paralleled with an infinite bus. When the 505E’s generator and utility tie breaker inputs are both closed, the Speed PID operates in a Unit Load mode. This method of allowing a PID to control a second parameter is referred to as Droop. Giving the Speed PID two parameters to control allows it to control unit load and act as a stabilizing effect for any change in bus frequency. With this configuration, when bus frequency decreases or increases, unit load increases and decreases respectively, based on the unit’s droop setting. The net effect is a more stable bus. See Figure 3-14 for a frequency and load relationship diagram. The term “droop” was derived from an isolated unit’s speed reaction to an increase in load when another parameter (unit load) is fed back to a Speed PID’s summing junction. The Droop term, as used throughout this manual refers to a PID’s second controlling parameter. A second parameter representing unit load is fed back into the 505E’s Speed PID to allow it to control two parameters; speed when operating in an isolated mode, and unit load when paralleled to an infinite bus. See Figure 3-13.