Description
The National Instruments GPIB-1014D is a robust GPIB Interface designed specifically for VMEbus systems, ensuring compatibility with the IEEE-488 standard. Manufactured by National Instruments, it adheres to the ANSI/IEEE 1014-1987 standard, reflecting reliability and industry acceptance.
Equipped with dual independent IEEE-488 interfaces, this device boasts the flexibility to act as a controller, listener, or talker on each interface, facilitated by two separate NEC µPD7210 GPIB TLC chips. This design maximizes operational adaptability and enhances the interfacing capabilities of the system it is integrated with.
Performance-wise, the GPIB-1014D achieves impressive transfer speeds of up to 500 kbytes/s, setting a high bar for data exchange efficiency in demanding applications. It operates on a +5 VDC power supply and requires a maximum current of 2.9 A, making it a robust yet energy-efficient solution for multiprocessor applications.
Connectivity is straightforward and reliable through the P1 and P2 connectors, ensuring a seamless interface with the VMEbus backplane. Additionally, the GPIB-1014D is built to withstand a broad range of operating environments, functioning optimally within a temperature range of 0° to 70° C, which is suitable for a wide array of industrial scenarios.
| Specification | Detail |
|---|---|
| Product | National Instruments GPIB-1014D GPIB Interface for VMEbus |
| Function | GPIB Interface |
| Compatibility | IEEE-488 Standard |
| Manufacturer | National Instruments |
| Standard Compliance | ANSI/IEEE 1014-1987 |
| Interfaces | Dual independent IEEE-488 interfaces |
| Controller/Listener/Talker Capability | Available on each IEEE-488 interface |
| Chips Used | Two separate NEC µPD7210 GPIB TLC chips |
| Transfer Speed | Up to 500 kbytes/s |
| Power Requirement | +5 VDC, Maximum current of 2.9 A |
| Application | Multiprocessor Applications |
| Connectors | P1 and P2 connectors for VMEbus interface |
| Operating Temperature Range | 0° to 70° C |
Q1: What are the capabilities and specifications of the National Instruments GPIB-1014D GPIB Interface designed for VMEbus systems in terms of its interfacing flexibility, data transfer speed, power requirements, and operating temperature range?
A1: The National Instruments GPIB-1014D’s use of dual independent IEEE-488 interfaces, each powered by separate NEC µPD7210 GPIB TLC chips, enhances its operational adaptability in VMEbus systems by allowing it to simultaneously act as a controller, listener, or talker on two separate GPIB buses, thereby expanding its interfacing capabilities and providing greater flexibility in complex multiprocessor environments.
Q2: How does the National Instruments GPIB-1014D’s use of dual independent IEEE-488 interfaces and NEC µPD7210 GPIB TLC chips enhance its operational adaptability in VMEbus systems?
A2: The National Instruments GPIB-1014D GPIB Interface for VMEbus systems features dual independent IEEE-488 interfaces with the ability to operate as a controller, listener, or talker, achieves transfer speeds of up to 500 kbytes/s, requires a +5 VDC power supply with a maximum current of 2.9 A, and operates within a temperature range of 0° to 70° C, offering high adaptability, efficiency, and reliability across various industrial environments.
Q3: What are the capabilities and performance characteristics of the National Instruments GPIB-1014D GPIB Interface designed for VMEbus systems, and how does it adhere to industry standards?
A3: The National Instruments GPIB-1014D GPIB Interface for VMEbus systems features dual independent IEEE-488 interfaces with two NEC µPD7210 GPIB TLC chips, allowing it to function as a controller, listener, or talker on each interface, and it achieves transfer speeds of up to 500 kbytes/s. It adheres to the ANSI/IEEE 1014-1987 standard, operates on a +5 VDC power supply with a maximum current of 2.
Q4: What are the features and capabilities of the National Instruments GPIB-1014D GPIB Interface for VMEbus systems?
A4: The National Instruments GPIB-1014D GPIB Interface for VMEbus systems is equipped with dual independent IEEE-488 interfaces, each powered by its own NEC µPD7210 GPIB TLC chip, allowing it to function as a controller, listener, or talker; it adheres to the ANSI/IEEE 1014-1987 standard, ensuring reliability and industry acceptance, and delivers high data transfer speeds of up to 500 kbytes/s, all while operating efficiently within a temperature
Q5: What are the operational capabilities and specifications of the National Instruments GPIB-1014D GPIB Interface designed for VMEbus systems in terms of interface flexibility, transfer speed, power requirements, and operating temperature range?
A5: The National Instruments GPIB-1014D GPIB Interface for VMEbus systems features dual independent IEEE-488 interfaces with the ability to function as a controller, listener, or talker, facilitated by two NEC µPD7210 GPIB TLC chips; it offers data transfer speeds of up to 500 kbytes/s, operates on a +5 VDC power supply with a maximum current requirement of 2.9 A, and can function within an operating temperature range of 0° to
