Description
The GPIB-1014DP, manufactured by National Instruments, is a GPIB Interface designed for VMEbus systems, and stands as a double height circuit board to facilitate the interfacing between VMEbus and IEEE-488 protocols.
It features two independent GPIB ports and has an alternate part number, 776093-01, for easy reference. With its capability as a bus translator, it ensures seamless communication between different bus systems.
The device achieves a data transfer rate of up to 80 kbytes/s and requires a 5 VDC power supply, with current requirements ranging from 1.1 A typically to 2.0 A at maximum. The 24 pin connector, conforming to the IEEE-488 standard, is utilized for physical connectivity.
Users can program the GPIB-1014DP for multiple usage modes, including as a controller, listener, or talker, and it offers complete listener capabilities with an option for extended capabilities to enhance its functionality.
| Specification | Detail |
|---|---|
| Part Number | GPIB-1014DP |
| Manufacturer | National Instruments |
| Description | GPIB Interface for VMEbus |
| Height | Double height circuit board |
| Function | Interfaces VMEbus to IEEE-488 |
| Independent GPIB Ports | Two |
| Alternate Part Number | 776093-01 |
| Bus Translator | Yes |
| Data Transfer Rate | Up to 80 kbytes/s |
| Power Supply | 5 VDC |
| Current Requirement | 1.1 A typical, 2.0 A maximum |
| Connector Type | 24 pin (IEEE-488 standard) |
| Usage Modes | Controller, Listener, Talker |
| Programmable | Yes |
| Listener Capabilities | Complete |
| Extended Capabilities | Available |
Q1: What are the key features and specifications of the National Instruments GPIB-1014DP GPIB Interface for VMEbus systems?
A1: The GPIB-1014DP Interface designed for VMEbus systems offers data transfer rates of up to 80 kbytes/s and requires a 5 VDC power supply, with current consumption typically at 1.1 A and up to 2.0 A at maximum.
Q2: What are the power requirements and data transfer capabilities of the National Instruments GPIB-1014DP designed for VMEbus systems?
A2: The National Instruments GPIB-1014DP GPIB Interface for VMEbus systems is a double-height circuit board that offers two independent GPIB ports, operates with a data transfer rate of up to 80 kbytes/s, requires a 5 VDC power supply drawing 1.1 A typically and up to 2.0 A at maximum, and uses a 24 pin connector. It can be programmed to function as a controller, listener, or talker, provides complete listener capabilities
Q3: What are the data transfer capabilities and power supply requirements of the GPIB-1014DP Interface designed for VMEbus systems?
A3: The National Instruments GPIB-1014DP designed for VMEbus systems requires a 5 VDC power supply, with typical current consumption of 1.1 A and a maximum of 2.0 A, and it is capable of achieving data transfer rates of up to 80 kbytes/s.
Q4: What is the significance of the GPIB-1014DP’s double height form factor and its two independent GPIB ports in facilitating the interface between VMEbus systems and IEEE-488 protocols?
A4: The National Instruments GPIB-1014DP interface designed for VMEbus systems achieves a data transfer rate of up to 80 kbytes/s and requires a 5 VDC power supply, with current demands typically at 1.1 A and up to 2.0 A at maximum.
Q5: What is the data transfer rate of the National Instruments GPIB-1014DP interface designed for VMEbus systems, and what power supply requirements does it have?
A5: The double height form factor of the GPIB-1014DP allows for the necessary circuitry to interface between the VMEbus and IEEE-488 protocols effectively, while its two independent GPIB ports enable simultaneous communication with multiple GPIB devices, thereby enhancing the system’s connectivity and throughput.
