SPASI23

Product Details

Product Description

Product Description
Brand: ABB
Type:SPASI23
Origin: the Swiss
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 of our products are widely used in metallurgy, petroleum, glass, aluminum manufacturing, petrochemical industry, coal mine, papermaking, printing, textile printing and dyeing, mechanical, electronic manufacturing, automobile manufacturing, plastic machinery, electric power, water conservancy, water treatment/environmental protection, boiler heating, energy, power transmission and distribution and so on.
The following are optional parameters that can be set. Parameter Function EncOut Sets the line count of the emulated encoder output. With 6-Step feedback the emulated encoder output works by interpolating between the edges. So, at low speeds signal quality will be poor. EnInhibitCW EnInhibitCCW Enables the hardware over travel limits.
CONFIGURING WITH SFD FEEDBACK 7.4.1 SFD Motor Parameters When the drive is powered up and connected to a motor with SFD feedback, the drive will automatically configure itself for the attached motor by loading the default motor parameters. The default motor parameters provide robust performance of current and velocity loops with optimized settings to protect the motor from thermal overload. For most applications, these default motor parameter settings are recommended because they provide excellent performance and require no additional tuning. To use the default motor parameters verify that SelSFDParam is set to SFD, which is the factory default setting.
If the response time and/or stability of the system needs to be further optimized for the specific application, the motor parameters will need to be modified. To modify the motor parameters, set SelSFDParam to Drive. This setting unlocks the motor parameters and allows the parameters to be individually set with the S200Tools utility. The modified motor parameters will need to be saved to the drive’s non-volatile memory (click the NV Save button) to ensure that the changed settings are loaded when the drive is powered up. CAUTION Incorrect motor parameter settings can cause damage to the motor and/or drive. The motor parameters need to be set correctly to match the drive to the motor. The correct parameter settings ensure: The drive is matched to the motor inductance and pole count. The current and velocity loops are stable with good bandwidth. The motor is protected from thermal overload. NOTE A good starting point to setting the motor parameters is to obtain the default motor parameters and then edit only the parameters that need to be changed Using the S200 Tools, set SelSFDParam to SFD, this loads the default motor parameters. Next, set SelSFDParam to DRIVE. This will allow the motor parameters to be edited. Change only the parameters you are looking to optimize. When finished setting the motor parameters (and any other parameters), save the parameters to NV Memory by clicking the NV Save button. The following drive setup parameters controlled by SelSFDParam: Parameter Value KVP Velocity loop proportional gain. KIP Current loop proportional gain. DPoles Drive pole pairs. I2TF0 Speed of response for motor transient thermal protection. I2TTrip Fault trip level for motor transient thermal protection. IlmtPlus, IlmtMinus Clamps drive maximum Iout based on motor Ipeak.