Verigy 93k Tester Manual May 2026

Verigy 93K Tester Manual: A Comprehensive Guide

Introduction

The Verigy 93K tester is a high-performance, precision instrument designed for testing and measurement applications in various industries, including aerospace, defense, and electronics. This manual provides a detailed overview of the Verigy 93K tester's features, operations, and maintenance procedures.

Table of Contents

Safety Precautions
System Overview
Hardware Components
Operating the Verigy 93K Tester
Test Setup and Configuration
Measurement and Test Functions
Data Analysis and Storage
Maintenance and Troubleshooting
Calibration and Verification
Specifications and Technical Data

1. Safety Precautions

Before using the Verigy 93K tester, ensure you have read and understood the following safety precautions:

Always follow proper safety procedures when handling electrical equipment.
Wear protective gear, such as gloves and safety glasses, when working with the tester.
Ensure the tester is installed and used in a well-ventilated area.
Avoid exposure to high-voltage or high-current circuits.

2. System Overview

The Verigy 93K tester is a modular, rack-mounted instrument consisting of the following main components:

Mainframe: The mainframe houses the tester's power supply, control circuitry, and interface modules.
Test Head: The test head contains the measurement circuitry and is connected to the device under test (DUT).
Controller: The controller is a user interface that allows you to configure and operate the tester.

3. Hardware Components

The Verigy 93K tester consists of the following hardware components:

Power Supply: A high-precision power supply providing stable voltage and current outputs.
Measurement Modules: Interchangeable modules providing various measurement functions, such as voltage, current, resistance, and capacitance measurements.
Interface Modules: Modules providing connectivity to external devices, such as computers, printers, and other test equipment.

4. Operating the Verigy 93K Tester

To operate the Verigy 93K tester:

Turn-on: Press the power switch to turn on the tester.
Self-test: The tester performs a self-test to ensure all systems are functioning correctly.
Login: Enter your username and password to access the tester's control menu.

5. Test Setup and Configuration

To set up a test:

Select Test Type: Choose the test type, such as voltage, current, or resistance measurement.
Configure Test Parameters: Set test parameters, such as voltage levels, current limits, and test duration.
Connect DUT: Connect the device under test (DUT) to the test head.

6. Measurement and Test Functions

The Verigy 93K tester provides various measurement and test functions, including:

Voltage Measurement: Measure DC and AC voltages.
Current Measurement: Measure DC and AC currents.
Resistance Measurement: Measure resistance using various test methods.
Capacitance Measurement: Measure capacitance using various test methods.

7. Data Analysis and Storage

The Verigy 93K tester provides various data analysis and storage features, including:

Data Display: Display measurement results on the controller's screen.
Data Storage: Store measurement results on the tester's internal memory or external storage devices.
Data Analysis: Perform statistical analysis and trending of measurement results.

8. Maintenance and Troubleshooting

To ensure optimal performance, regularly perform the following maintenance tasks:

Clean the Tester: Clean the tester's exterior and interior regularly.
Verify Calibration: Verify the tester's calibration and adjust as necessary.
Troubleshoot Issues: Follow troubleshooting procedures to resolve common issues.

9. Calibration and Verification

The Verigy 93K tester requires periodic calibration and verification to ensure accuracy and reliability. Follow these steps:

Calibration: Perform calibration procedures using certified calibration equipment.
Verification: Verify the tester's performance using certified test equipment.

10. Specifications and Technical Data

The Verigy 93K tester has the following specifications and technical data:

Measurement Accuracy: ±0.1% ( voltage), ±0.5% (current)
Test Speed: Up to 1000 readings per second
Memory Capacity: 100,000 readings

Conclusion

The Verigy 93K tester is a high-performance instrument designed for precision measurement and testing applications. This manual provides a comprehensive guide to operating, maintaining, and troubleshooting the tester. By following the procedures outlined in this manual, you can ensure optimal performance and accuracy from your Verigy 93K tester.

Revision History

Rev 1.0: Initial release
Rev 1.1: Updated specifications and technical data

Warranty Information

The Verigy 93K tester is covered by a limited warranty. For more information, refer to the warranty documentation provided with the instrument.

Contact Information

For technical support, calibration, or repair services, contact:

[Your Company Name] [Address] [Phone Number] [Email Address]

To access the official Verigy (Advantest) V93000 (93k) tester manuals, you generally need to go through the official manufacturer portal. Because these systems are proprietary, the full technical manuals are rarely available as direct public downloads. Where to Find the Manuals Advantest Software Center (Official) : This is the primary source for all documentation, including

software guides and hardware manuals. You must have a service agreement to request access to the Software Center myAdvantest portal Technical Documentation Center (TDC)

: Advantest provides a standalone help application called the that allows you to navigate and search the complete documentation offline In-Software Help : If you already have the

software installed, you can often access the manual directly by choosing Help > Help Contents within the application. ADVANTEST CORPORATION Manual Content Highlights The V93000 documentation suite typically covers: Hardware Overview

: Details on the scalable platform, water cooling technology, card cage structure, and pogo blocks. SmarTest Software

: Concept overviews, file structures, and guides for the Flow Sequence and Flow Data editors. DUT Board Design

: Mechanical and performance considerations for designing Device Under Test (DUT) loadboards. Safety & Maintenance

: Critical procedures for system start-up, shutdown, and general electrical safety to avoid fire or shock hazards. Supplementary Resources

If you cannot access the official portal, these third-party summaries provide high-level technical details: V93000 Technical Documentation - Advantest

To verify the Verigy V93000 (now Advantest V93K) tester manual or documentation, you must access the official myAdvantest portal

, as most technical manuals are protected and require a service agreement. ADVANTEST CORPORATION How to Access the Official Manuals Log in to myAdvantest : Go to the myAdvantest portal Request Software Center Access : If you don't have it, navigate to Self Services Software Center

. Access usually requires an active service agreement with Advantest. Use SmarTest Help : If you are already on a workstation, you can open the Technical Documentation Center (TDC) directly within SmarTest by selecting Help Contents Dynamic Help

: For specific API verification, highlight the API in the Test Method editor and click Dynamic Help to see relevant info from the TDC. ADVANTEST CORPORATION Key Technical Manuals & Resources System Reference

: Covers startup/shutdown, test head components (CTH/STH), and DUT board design. SmarTest Software Overview

: Essential for understanding test flow generation and the Test Method editor. Hardware Overviews

: Provides details on specific modules like the SMU8 (DC measurement) or AVI64 (analog pins). Direct-Probe™ Evolution

: Documentation on wafer probing and signal integrity at the die level. Utah Nanofab Safety & Connection Essentials Terminal Ratings

: Always check the manual for maximum ratings before making connections to prevent fire or shock. Physical Connections

: Ensure proper connection of "air input" (utility box), power cables for the test head (STH/CTH), and Workstation Ethernet before powering up. hardware pinout for a particular card? V93000 Technical Documentation - Advantest

The Advantest (formerly Verigy) V93000 (93k) is a scalable SOC test platform, and its official documentation is primarily managed through the Technical Documentation Center (TDC). Because these manuals are proprietary, you typically need an active service agreement with Advantest to access the full technical library. How to Access Official Manuals

Online TDC: You can browse documentation online or download a standalone version for Windows or Linux from the Advantest MyAdvantest portal.

SmarTest Software: If you have the SmarTest software installed, go to Help > Help Contents to open the integrated documentation.

Software Center: Full PDFs for system components and hardware can be downloaded from the Advantest Software Center once access is approved. Key Manuals and Documentation Areas verigy 93k tester manual

The 93k documentation is split into several specialized categories based on user needs:

Hardware Overview: Covers the scalable SOC platform, workstation, water cooling technology, and card cage structure.

System Reference: Detailed reference material on test system components, start-up/shutdown procedures, and analog modules.

DUT Board Design: Mechanical and performance considerations for designing device-under-test (DUT) loadboards.

Instrument Manuals: Specific guides for cards like the Pin Scale 800 digital card, AV8 Analog Card, or DPS32 power supply.

Training & Programming: Lab guides for SmarTest software, testflow setup, pin configuration, and debugging. Third-Party & Add-on Guides

If you are using high-speed extensions or specific twinning frames, you may need supplementary manuals from partners: System Reference - Utah Nanofab

Introduction

The Verigy 93K tester is a high-performance, precision instrument used for testing and measuring the electrical characteristics of semiconductor devices, particularly in the field of wafer probing and device testing. The device is widely used in the semiconductor industry for its accuracy, reliability, and flexibility. To ensure optimal performance and accurate measurements, it is essential to understand the operating principles, features, and procedures outlined in the Verigy 93K tester manual. This essay provides an in-depth review of the Verigy 93K tester manual, covering its key components, operating procedures, and applications.

Overview of the Verigy 93K Tester

The Verigy 93K tester is a modular, high-speed testing system designed to measure the electrical characteristics of semiconductor devices, including parametric test, functional test, and reliability test. The system consists of several key components, including the test head, motherboard, and peripherals. The test head is the core component of the system, housing the precision analog and digital measurement circuitry. The motherboard provides the interface between the test head and the device under test (DUT), while the peripherals include the power supplies, precision voltage sources, and measurement units.

Key Features and Specifications

The Verigy 93K tester manual highlights several key features and specifications of the device, including:

High-precision measurement capabilities: The Verigy 93K tester offers high-precision measurement capabilities, with an accuracy of ±0.1% and a resolution of 16 bits.
High-speed testing: The device can perform tests at speeds of up to 1,000 measurements per second.
Multi-channel testing: The Verigy 93K tester has multiple test channels, allowing for simultaneous testing of multiple devices.
Wide range of test capabilities: The device can perform a wide range of tests, including DC parametric test, functional test, and reliability test.

Operating Procedures

The Verigy 93K tester manual provides detailed operating procedures for setting up and using the device. These procedures include:

Initial setup and calibration: The manual outlines the steps required to set up and calibrate the device, including checking the power supply, configuring the test head, and performing initial calibration.
Test program development: The manual provides guidance on developing test programs, including creating test patterns, setting test conditions, and configuring measurement units.
Test execution: The manual outlines the procedures for executing tests, including loading the DUT, setting test parameters, and running the test program.

Applications

The Verigy 93K tester is widely used in the semiconductor industry for a variety of applications, including:

Wafer probing: The device is used for wafer probing, where it measures the electrical characteristics of devices on a wafer.
Device testing: The Verigy 93K tester is used for device testing, where it measures the electrical characteristics of packaged devices.
Reliability testing: The device is used for reliability testing, where it measures the electrical characteristics of devices under various stress conditions.

Conclusion

In conclusion, the Verigy 93K tester manual provides a comprehensive guide to the operation and use of the Verigy 93K tester. The device is a high-performance, precision instrument used for testing and measuring the electrical characteristics of semiconductor devices. By understanding the key features, operating procedures, and applications outlined in the manual, users can optimize the performance of the device and achieve accurate measurements. The Verigy 93K tester is a valuable tool for the semiconductor industry, and its manual serves as a critical resource for anyone working with the device.

Recommendations

Based on the information provided in the Verigy 93K tester manual, several recommendations can be made:

Users should carefully follow the operating procedures outlined in the manual to ensure accurate measurements and optimal performance.
The device should be regularly calibrated and maintained to ensure accuracy and reliability.
Users should develop and validate test programs to ensure that they are accurate and effective.

By following these recommendations and using the Verigy 93K tester manual as a guide, users can get the most out of their device and achieve high-quality results.

Part 4: Advanced Topics Only Found in the Fine Print

Seasoned engineers respect the Verigy 93K manual for its coverage of edge cases:

4. Troubleshooting Common Errors

"Interlock Open":
- Cause: The safety circuit is broken. Usually happens if the test head is undocked without the safety key, or if a cover is open.
- Fix: Ensure the test head is docked or the "dummy" interlock key is inserted.
"DPS Current Trip":
- Cause: The Device Power Supply hit the current limit you set in the Levels section.
- Fix: Check for shorts on the Load Board or increase the current limit if the DUT legitimately needs more power.
"Pattern Timeout":
- Cause: The digital pattern is stuck in a loop and never hit a "Stop" opcode.
- Fix: Check your vector file and ensure there is a HALT or STOP instruction at the end of the pattern.

Verification and Validation

When you've located a manual, ensure it's for the correct model and version of your equipment. Test equipment calibration and verification procedures are critical for accuracy and safety.

If you're verifying the performance of a tester, ensure you follow these steps:

Calibration: Adjust the tester to ensure it provides accurate measurements.
Verification: Use known standards to confirm the tester provides correct results within its specified accuracy.

This process typically requires traceability to national or international standards to ensure the measurements are reliable.

Mastering the Verigy 93000 (V93K) Tester: A Comprehensive Guide Verigy 93K Tester Manual: A Comprehensive Guide Introduction

In the world of Automated Test Equipment (ATE), the Verigy 93000 (now Advantest V93K) stands as the industry standard for SOC (System-on-a-Chip) testing. Whether you are a test engineer debugging a new silicon wafer or a production manager optimizing throughput, understanding the "manual" operations and architecture of this platform is essential.

This guide serves as a high-level manual for navigating the V93K ecosystem, covering its architecture, software environment, and best practices for test development. 1. Understanding the V93K Architecture

The V93K is unique because of its per-pin architecture. Unlike older testers that share resources across multiple pins, every pin on a V93K has its own independent timing generator, sequencer, and DC resources.

The Test Head: Houses the "pins" or channels. Depending on your configuration (C-Class, PS1600, or the newer EXA Scale), the density and speed of these pins will vary.

The Workstation: Usually a Linux-based controller running the SmarTest software. This is where you write code and control the hardware.

The Cooling System: High-performance testing generates heat; the V93K typically uses liquid or air-chilled systems to maintain thermal stability. 2. Software Interface: SmarTest 7 vs. SmarTest 8

The "manual" for a V93K is largely a manual for SmarTest. There are two primary versions currently in use:

SmarTest 7: The classic version. It is workbook-based (Excel-like interface) where you define levels, timing, and test suites in distinct sheets.

SmarTest 8: The modern evolution. It is object-oriented and utilizes a more streamlined, C++ based environment. It is designed for massive multi-site testing and faster compilation. 3. Key Operational Steps

To run a test on the V93K, you must navigate several core components: A. The Device Development Tool (DDT)

This is where you define the physical mapping. You tell the tester which "Tester Channel" is connected to which "DUT Pin." B. Levels and Timing Levels: Define the voltage thresholds (VIL, VIH, VOL, VOH).

Timing: Define the "Period" of the test and the "Edges" (when a signal should transition or when the tester should strobe the output to check for a pass/fail). C. The Vector/Pattern Files

The V93K uses .avc (ASCII) or compressed binary formats for patterns. These files contain the 1s and 0s that represent the functional logic of the chip. D. Test Methods

These are the C++ or Java-based scripts that execute the tests. A standard manual procedure involves: Setting the levels. Bursting a pattern. Measuring a DC value (like IDDQ or standby current). Returning a "Pass" or "Fail" to the sequencer. 4. Common Troubleshooting (The "Service Manual" Approach)

When the tester isn't behaving, engineers typically follow these steps:

Diagnostic Run: Use the built-in "Self-Test" to ensure the hardware pin cards are calibrated.

Contact Check: Ensure the probe card or test socket is making clean contact with the silicon.

Level Shifting: Manually tweak the VDD levels in the software to see if the part begins to pass (indicating a marginality issue). 5. Best Practices for Test Engineers

Modular Coding: Write reusable Test Methods to save time across different projects.

Multi-site Efficiency: Always design your test flow to test as many chips as possible simultaneously (parallel testing) to reduce the Cost of Test (CoT).

Documentation: Keep a rigorous log of change histories in your SmarTest setup—small changes in timing can lead to massive yield "swings." Conclusion

The Verigy 93000 is a powerhouse of precision. While a physical manual would span thousands of pages, mastering the platform comes down to understanding the SmarTest environment and the per-pin hardware logic. As the industry shifts toward SmarTest 8 and EXA Scale hardware, staying updated on these software transitions is the key to a successful career in ATE.

Version Compatibility:

| Tester Model | Recommended Manual Version | | --- | --- | | Verigy 93K (pre-2012) | V4.4 to V5.1 | | Advantest V93000 (2012-2018) | V6.x to V7.5 | | Advantest V93000 (current) | V8.x, V9.0 |

Mismatching firmware and manual versions is the #1 cause of testhead lockups.

7.2 RF Option (93K-RF)

The manual includes chapters on:

VSG/VSA calibration (Vector Signal Generator/Analyzer).
I/Q imbalance correction using embedded DSP.

Part 8: Best Practices for Maintaining Your Own Manual Knowledge Base

Searching a static PDF is slow. Build a living Verigy 93K tester manual strategy:

Index critical tables: Copy the "Timing Set template" and "Level Set safety limits" into a local wiki.
Annotate with real DIBs: Next to every pin mapping example, paste your actual DIB schematic number.
Script frequent tasks: Convert manual commands (e.g., gpib_config -d 5 -r) into shell aliases.
Join the community: Check WayBack Machine for old Verigy User Group presentations—they are often clarifications of manual ambiguities.