PDF Publication Title:
Text from PDF Page: 018
Communications Interfaces Communications Interfaces Set-up, control, and monitoring of the microturbine is managed through the display panel, the user interface port (UIP), and the maintenance interface port. Some operating communications are accomplished via the field wiring terminals. Primary user communications include: • Establishing operating parameters and settings • Starting and stopping the microturbine • Adjusting power output • Recovering operating data Maintenance and commissioning communication functions include: • Establishing operating modes • Establishing operating parameter set points/limits • Establishing dispatch modes and parameters • Recovering event data, and troubleshooting These communications are accomplished through the use of one of the following: Display Panel The front-mounted display panel includes a keypad, a display window, navigation buttons, and system controls. User Interface Port A Dsub9 RS-232 serial communications port is located in the user connection bay and is available for remote operation. A Microsoft Windows 95/98/2000/NT based computer, RS-232 cable, and Capstone Remote Monitoring System (CRMS) software are used to communicate through this port. Optionally, a modem and an analog phone line may be connected to the port for remote operation. Maintenance Interface Port A Dsub25 RS-232 serial communications port is located in the user connection bay and is functionally identical to the user interface port. A PC-type computer can connect to the microturbine through the maintenance interface port (MIP). System diagnostics and software upgrades are performed via this port. Field Wiring Terminals Electrical terminals are provided for the following connections: • Optional emergency stop switch • Auxiliary power (2 x 13.8 VDC, 2.5 A) • Remote power meter • Remote start/stop switch • Battery wake Output Relays Six solid-state output relay terminals are provided. These may be programmed to be activated by any of the 11 machine states listed below. The logic for each relay may be programmed either active open or active closed. See menu descriptions for details. • Standby • Run • Contactor Closed (formerly Load) • Fault • Stand-alone • SA Load • Disable • Fuel On • Fuel Purge (liquid fuel only) • Load State • External Load Fault Inputs Two fault detect input terminals are provided. Fault Input #1 is optically isolated and Fault Input #2 is not. See menu descriptions for details. System Operation 8 511715-002PDF Image | CAPSTONE MICROTURBINE MODEL 330 SYSTEM MANUAL
PDF Search Title:
CAPSTONE MICROTURBINE MODEL 330 SYSTEM MANUALOriginal File Name Searched:
Model330SystemManual.pdfDIY PDF Search: Google It | Yahoo | Bing
Capstone Turbine and Microturbine: Capstone microturbines used and new surplus for sale listing More Info
Consulting and Strategy Services: Need help with Capstone Turbine, sizing systems, applications, or renewable energy strategy, we are here to assist More Info
Container Lumber Dry Kiln: Since 1991 developing and innovating dry kilns using standard shipping containers More Info
Supercritical CO2 Lumber Dry Kiln: Compact fast drying in 3 days or less for small amounts of wood and lumber drying More Info
BitCoin Mining: Bitcoin Mining and Cryptocurrency... More Info
Publications: Capstone Turbine publications for microturbine and distributed energy More Info
FileMaker Software for Renewable Energy Developing database software for the renewable energy industry More Info
CO2 Gas to Liquids On-Demand Production Cart Developing a supercritical CO2 to alcohol on-demand production system (via Nafion reverse fuel cell) More Info
Stranded Gas for low cost power Bitcoin Mining Using stranded gas for generators may provide breakthrough low power costs for cryptocurrency miners. More Info
CONTACT TEL: 608-238-6001 Email: greg@globalmicroturbine.com (Standard Web Page)