NI GPIB-140A2

Description

NI GPIB-140A2 Detailed Product Description

Detailed Parameter Table

NI GPIB-140A2

Product Introduction

The NI GPIB-140A2 is a high-performance fiber-optic GPIB extender designed to overcome the distance and device-count limitations of traditional GPIB systems. As a key component in National Instruments’ GPIB ecosystem, it enables long-range communication between GPIB-enabled instruments and controllers, extending cable lengths from the standard 20 m (IEEE 488) to an impressive 2 km.

By leveraging fiber-optic technology, the GPIB-140A2 eliminates electromagnetic interference (EMI) and radio-frequency interference (RFI) issues common in copper-based GPIB cables, ensuring reliable data transmission in electrically noisy environments. It supports both standard IEEE 488.1 and high-speed HS488 protocols, making it compatible with legacy and modern GPIB instruments alike. Whether deployed in large industrial plants, research laboratories, or distributed test facilities, the GPIB-140A2 simplifies system expansion while maintaining signal integrity.

Core Advantages and Technical Highlights

Fiber-Optic Reliability

The GPIB-140A2’s fiber-optic transmission medium is inherently immune to EMI/RFI, a critical advantage in environments with heavy machinery, power lines, or radio transmitters. Unlike copper cables, which can pick up noise and degrade signals over distance, fiber optics ensure stable data transfer even in harsh industrial settings—such as automotive factories or power generation facilities—where electrical interference is prevalent.

Extended Reach and Scalability

Breaking the 20 m barrier of standard GPIB, the GPIB-140A2 enables instrument placement up to 2 km from controllers. This is transformative for large-scale setups, such as aerospace test ranges where sensors and analyzers may be spread across a facility. Additionally, it increases the maximum number of connected devices from 15 to 28, allowing users to build more complex systems without sacrificing performance—a boon for semiconductor wafer test stations or multi-channel data acquisition systems.

Dual Transmission Modes

The extender offers buffered and unbuffered modes to optimize performance for different scenarios:

Buffered mode: Uses FIFO buffers to boost throughput, ideal for high-speed data acquisition from oscilloscopes or spectrum analyzers.

Unbuffered mode: Ensures bit-by-bit verification, critical for command/response applications like programmable power supplies where data accuracy is paramount.

Users can switch modes via DIP switches, tailoring the device to specific test requirements.

Robust Design

Encased in an all-metal housing, the GPIB-140A2 withstands physical stress and provides additional EMI shielding. Its wide operating temperature range (0 °C to 55 °C) ensures reliability in both climate-controlled labs and unconditioned industrial spaces, while compliance with global safety standards (CE, UL, CSA) simplifies deployment in international markets.

Typical Application Scenarios

In automotive manufacturing, the GPIB-140A2 connects a central test controller to measurement instruments (e.g., multimeters, torque sensors) spread across a production line. Its 2 km range allows placement of sensitive equipment away from assembly-line noise, while fiber optics prevent interference from welding robots or motors.

In academic research, a physics laboratory might use the extender to link a control computer to detectors in a radiation-shielded room or vacuum chamber. The EMI immunity ensures accurate data from particle counters or spectrometers, even when located hundreds of meters from the lab.

In broadcast facilities, the GPIB-140A2 integrates signal analyzers, signal generators, and transmitters across a campus. Its ability to support 28 devices enables centralized monitoring of multiple transmitters, while the fiber-optic link avoids interference from radio towers.

Related Model Recommendations

NI GPIB-USB-HS: A USB-to-GPIB adapter that pairs with the GPIB-140A2 to connect laptops or desktop PCs to extended GPIB networks. Ideal for portable test setups requiring long-range instrument control.

NI PXI-8232: A PXI GPIB interface module that, when combined with the GPIB-140A2, extends GPIB connectivity from PXI chassis to remote instruments. Perfect for hybrid PXI/GPIB systems in aerospace testing.

NI 4071: A 6½-digit DMM with GPIB that works seamlessly with the GPIB-140A2 for remote voltage/current measurements in distributed systems, such as solar panel testing facilities.

Type T8 Fiber-Optic Cable: NI’s recommended cable for the GPIB-140A2, optimized for 2 km transmission with low signal loss.

NI GPIB-140A2

Installation, Commissioning, and Maintenance

Installation Steps

Power Preparation: Select the correct power supply (e.g., 777998-01 for 120 VAC in the US) and ensure the outlet is grounded.

Mounting: Place the GPIB-140A2 in a dry, dust-free location—rack-mount or bench-top—with ventilation clearance.

Cabling: Connect Type T8 fiber-optic cables between the extender and GPIB instruments/controllers. Use fiber-optic cleaning kits to ensure connector cleanliness.

Configuration: Set DIP switches for buffered/unbuffered mode (default: unbuffered) and power on the device.

Commissioning

Use NI MAX (Measurement & Automation Explorer) to verify GPIB device detection across the extended network.

Test data transfer with a sample instrument (e.g., send a *IDN? query to a spectrum analyzer) to confirm communication.

Validate HS488 performance by transferring a large dataset (e.g., waveform capture from an oscilloscope) in buffered mode.

Maintenance Tips

Inspect fiber-optic connectors monthly for dust or damage; clean with approved fiber cleaners.

Check power connections quarterly to prevent corrosion, especially in humid environments.

Store spare Type T8 cables in protective cases to avoid fiber breakage.

If communication fails, reset the extender and verify DIP switch settings; replace cables if signal loss is detected.

Service and Guarantee Commitment

The NI GPIB-140A2 comes with a 2-year warranty covering defects in materials and workmanship. NI’s global technical support provides 24/7 assistance for installation, troubleshooting, and firmware updates via phone, email, or online portals.

Calibration services are available through NI’s ISO 17025-accredited labs, ensuring the extender meets original performance specifications. For custom integration, NI’s professional services team offers system design support to optimize GPIB-140A2 deployment in complex networks.

With a mean time between failures (MTBF) exceeding 200,000 hours, the GPIB-140A2 is engineered for long-term reliability, backed by NI’s commitment to lifecycle support for legacy GPIB systems.