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Data Acquisition Products Download DAQ, Industrial PXI Download DAQ, PXI, Simultaneous DAQ, PXI, High Performance DAQ, PXI, Value DAQ, Desktop PCI DAQ, USB Download DAQ, USB, Multifunction DAQ, USB, High Speed Compact DAQ (cDAQ) Family Download Compact DAQ (cDAQ) Chassis Compact DAQ (cDAQ) Controller Real-Time & Embedded CompactRIO (cRIO) Family CompactRIO (cRIO) Chassis CompactRIO (cRIO) Modules Download Single-Board RIO Download sbRIO Main Boards sbRIO I/O Modules sbRIO Accessories Download PXI Platform Download PXI Chassis PXI Controllers PXI Modules Download PXI Data Aqcuisition Download PXI, DAQ, Simultaneous PXI, DAQ, High Performance PXI, DAQ, Value PXI Oscilloscopes PXI Digital Multimeters Industrial Instrumentation Download Digital Multimeters (DMM's) Download PXI Digital Multimeters Oscilloscopes & Digitizers Download Oscilloscopes, USB Oscilloscopes, PXI Oscilloscopes, Desktop PCI Oscilloscope Accessories Digitizer, PXI, High Performance Digitizer, PXI, Value

Data Acquisition Products Download DAQ, Industrial PXI Download DAQ, PXI, Simultaneous DAQ, PXI, High Performance DAQ, PXI, Value DAQ, Desktop PCI DAQ, USB Download DAQ, USB, Multifunction DAQ, USB, High Speed Compact DAQ (cDAQ) Family Download Compact DAQ (cDAQ) Chassis Compact DAQ (cDAQ) Controller Real-Time & Embedded CompactRIO (cRIO) Family CompactRIO (cRIO) Chassis CompactRIO (cRIO) Modules Download Single-Board RIO Download sbRIO Main Boards sbRIO I/O Modules sbRIO Accessories Download PXI Platform Download PXI Chassis PXI Controllers PXI Modules Download PXI Data Aqcuisition Download PXI, DAQ, Simultaneous PXI, DAQ, High Performance PXI, DAQ, Value PXI Oscilloscopes PXI Digital Multimeters Industrial Instrumentation Download Digital Multimeters (DMM's) Download PXI Digital Multimeters Oscilloscopes & Digitizers Download Oscilloscopes, USB Oscilloscopes, PXI Oscilloscopes, Desktop PCI Oscilloscope Accessories Digitizer, PXI, High Performance Digitizer, PXI, Value

< Back Single-Board RIO Category Page: singleboard-rio Filter by Category All Data Acquisition Products National Instruments cSeries Terminal Block Embedded Systems Price $65.00 $6,297.00 Quick View NI 9223, 4-Ch, +/-10 V, 16-Bit, 1 MS/s, SS AI C Series Module Price $3,036.00 Excluding Sales Tax Quick View NI 9224, C-Series Module, Ch-to-Ch Isolated AI, 8-Ch | 783862-01 Price $1,952.00 Excluding Sales Tax Quick View NI 9231, C-Series Module, 8-Ch, Analog Input | 783610-01 Price $4,804.00 Excluding Sales Tax Quick View NI 9235, C-Series Module, 8-Ch, Bridge Input | 785995-01 Price $3,163.00 Excluding Sales Tax In Stock Quick View NI 9238, C-Series Module, 4-Ch, Analog Input | 783311-01 Price $2,048.00 Excluding Sales Tax In Stock Quick View NI 9244, C-Series Module, 3-Ch, 24-Bit, 50 kS/s/ch, AI | 783106-01 Price $2,988.00 Excluding Sales Tax Quick View NI 9250 C-Series Module, 2-Ch, 24-Bit, 102.4 kS/s/ch, AI | 783827-01 Price $1,811.00 Excluding Sales Tax Quick View NI 9435, C-Series Module, 4-Ch, Sink/Source DI Price $359.00 Excluding Sales Tax Quick View NI 9467, C-Series Module, GPS Time Synch Price $1,150.00 Excluding Sales Tax Quick View NI 9775, C-Series Module, 4-Ch, 20 MS/s/ch, Digitizer Price $3,901.00 Excluding Sales Tax In Stock Quick View NI 9853, C-Series Module, 2-Port High-Speed CAN Price $2,246.00 Excluding Sales Tax Quick View NI 9862, C Series Module, 1-Port CAN Interface Price $1,280.00 Excluding Sales Tax In Stock Quick View NI 9923, Front-Mount Terminal Block 37-pin D-Sub Modules Price $270.00 Excluding Sales Tax Quick View NI 9924, Front-Mount terminal block 25-pin D-Sub Modules Price $208.00 Excluding Sales Tax Quick View NI 9935, 15-Pin Terminal Block & D-Sub Connector Kit Price $134.00 Excluding Sales Tax Quick View NI 9975, 16-Position Screw Terminal Connector Block (Qty 2) | 196741-01 Price $65.00 Excluding Sales Tax Quick View NI-9206, C-Series Module, Analog Input, 16 ch, ± 10 V, 250 kS/s | 779526-01 Price $2,335.00 Excluding Sales Tax Quick View NI-9211, C-Series Module, Thermocouple, 4 ch, 14 S/s/ch, 24 bit Price $699.00 Excluding Sales Tax In Stock Quick View NI-9214, C Series Module, Temperature Input, 16-Ch Price $2,755.00 Excluding Sales Tax In Stock Quick View NI-9217, C-Series RTD, PT100, 24-bit, 100S/s/ch, 4 ch [Screw Term] | 779592-01 Price $1,033.00 Excluding Sales Tax Load More

ENGINEERING LIBRARY Project Case Studies The best way to get to know us is by taking a tour of the systems we've developed over the years. ​ While every project is unique, all projects share common features. No matter what your project requirements are, we know how to get you there. ​ Here is a small sample of some of our Automated Test Systems, Embedded Control Systems, Machine Vision Systems, and Manufacturing Automation Systems. Project Case Studies by Application Area Automated Test Machine Vision Industrial Automation Real-Time & Embedded E-Bike Battery Testing and Validation Using BatteryFlex Test and Analysis of Portable Ventilator Battery - BatteryFlex Bed of Nails Fixture for Printed Circuit Board (PCB) Testing 1 2 3 4 5 Circaflex & NI Single-Board RIO Power Syringe Lubrication Inspection Demo Machine Vision Solution Enables Steel Surface Defect Detection Inspecting Dinner Plates Using LabVIEW & Vision Integration 1 2 3 4 Hyundai Improves Production Test Time using PXI, LabVIEW, and TestStand Hydraulic Control System for Automotive Component Shaping Automated QR Code Printer & Verifier Enables Inventory Tracking 1 2 3 Circaflex & NI Single-Board RIO Power Syringe Lubrication Inspection Demo Control System using LabVIEW & cRIO for Hotbar Bonder in X-ray Sensors Probing of Large-Array, Fine-Pitch Microbumps for 3D ICs 1 2 3 4 5 All Project Case Studies All Posts Embedded Control Systems ​ Machine Vision Systems ​ Life Sciences Energy & Power Product Manufacturing Automated Test Systems Transportation BlogPost CaseStudy Food & Beverage Search National Instruments NI-TClk Technology for Timing and Synchronization of Modular Instruments Overview Many test and measurement applications call for the timing and synchronization of multiple instruments because of the limited... An Overview of the PXI Platform Powered by software, PXI is a rugged PC-based platform for measurement and automation systems. PXI combines PCI electrical-bus features... PowerFlex - 24/7 Power Grid Monitoring Using Circaflex and NI sbRIO PowerFlex is a ready-to-use platform for energy monitoring and measurement of signals directly from the power line. Typical Applications:... E-Bike Battery Testing and Validation Using BatteryFlex The Challenge A Southern California E-Bike (Electronic Bike) manufacturer approached us regarding a system to test and validate their... Test and Analysis of Portable Ventilator Battery - BatteryFlex The Challenge A healthcare provider and manufacturer approached us needing a system to test and analyze the quality of their batteries... Bed of Nails Fixture for Printed Circuit Board (PCB) Testing The Challenge We required a fixture to test and measure the quality and function of manufactured Printed Circuit Boards (PCBs). The... 1 2 3 4 5

< Back DAQ, USB, All Types Category Page: oscillloscope Filter by Category All Data Acquisition (DAQ) National Instruments cSeries Terminal Block Embedded Systems Price $65.00 $10,274.00 In Stock Quick View cRIO-9048, 1.3 GHz Dual-Core, 160T FPGA, 8-Slot, RT, XT Price $10,274.00 Excluding Sales Tax Quick View NI 9223, 4-Ch, +/-10 V, 16-Bit, 1 MS/s, SS AI C Series Module Price $3,036.00 Excluding Sales Tax Quick View NI 9224, C-Series Module, Ch-to-Ch Isolated AI, 8-Ch Price $1,952.00 Excluding Sales Tax Quick View NI 9231, C-Series Module, 8-Ch, Analog Input Price $4,804.00 Excluding Sales Tax Quick View NI 9235, C-Series Module, 8-Ch, Bridge Input Price $3,163.00 Excluding Sales Tax In Stock Quick View NI 9238, C-Series Module, 4-Ch, Analog Input Price $2,048.00 Excluding Sales Tax In Stock Quick View NI 9244, C-Series Module, 3-Ch, 24-Bit, 50 kS/s/ch, AI Price $2,988.00 Excluding Sales Tax Quick View NI 9250 C-Series Module, 2-Ch, 24-Bit, 102.4 kS/s/ch, AI Price $1,811.00 Excluding Sales Tax Quick View NI 9435, C-Series Module, 4-Ch, Sink/Source DI Price $359.00 Excluding Sales Tax Quick View NI 9467, C-Series Module, GPS Time Synch Price $1,150.00 Excluding Sales Tax Quick View NI 9775, C-Series Module, 4-Ch, 20 MS/s/ch, Digitizer Price $3,901.00 Excluding Sales Tax In Stock Quick View NI 9853, C-Series Module, 2-Port High-Speed CAN Price $2,246.00 Excluding Sales Tax Quick View NI 9862, C Series Module, 1-Port CAN Interface Price $1,280.00 Excluding Sales Tax In Stock Quick View NI 9923, Front-Mount Terminal Block 37-pin D-Sub Modules Price $270.00 Excluding Sales Tax Quick View NI 9924, Front-Mount terminal block 25-pin D-Sub Modules Price $208.00 Excluding Sales Tax Quick View NI 9935, 15-Pin Terminal Block & D-Sub Connector Kit Price $134.00 Excluding Sales Tax Quick View NI 9975, 16-Position Screw Terminal Connector Block (Qty 2) Price $65.00 Excluding Sales Tax Quick View NI-9206, C-Series Module, Analog Input, 16 ch, ± 10 V, 250 kS/s, 16 bit Price $2,335.00 Excluding Sales Tax Quick View NI-9211, C-Series Module, Thermocouple, 4 ch, 14 S/s/ch, 24 bit Price $699.00 Excluding Sales Tax In Stock Quick View NI-9214, C Series Module, Temperature Input, 16-Ch Price $2,755.00 Excluding Sales Tax Load More

Back Benefits of PCBA Automated Testing Automated Printed Circuit Board Testing High Volume Testing In the fast-paced world of PCBA manufacturing, testing large volumes of boards can be a time-consuming and resource-intensive process. Manual testing methods may not be able to keep up with the demand, leading to delays in production and potential quality issues. Automated testing systems are designed to handle high volumes of testing efficiently, allowing manufacturers to meet tight deadlines and scale production without sacrificing quality. Complex Test Procedures PCBA testing often involves complex test procedures that require precise measurements and analysis. Manual testing methods may not be able to perform these tests accurately and consistently, leading to errors and false results. Automated testing systems use advanced equipment and software to perform tests with precision and speed, ensuring accurate and reliable results. These systems can handle complex test procedures, including functional testing, performance testing, and stress testing. Traceability and Documentation PCBA testing requires traceability and documentation of test results for quality control purposes. Manual testing methods may not provide the level of traceability and documentation required to meet regulatory requirements and customer expectations. Automated testing systems provide detailed traceability and documentation of test results, allowing manufacturers to track and analyze data for quality control purposes. This level of traceability ensures that your products meet the highest standards in the industry. Automation can help overcome these challenges by streamlining the testing process, improving productivity, and enhancing the overall quality of your electronic assemblies. By implementing automated testing in your PCBA manufacturing process, you can achieve higher levels of quality control, reduce costs, and gain a competitive advantage in the market. Previous Next

ENGINEERING LIBRARY Engineering White Papers Measuring Direct Current (DC) Voltage Sensor Fundamentals Read More Components of Automated Testing System for PCBA Automated Printed Circuit Board Testing Read More Benefits of PCBA Automated Testing Automated Printed Circuit Board Testing Read More We know the ins and outs of PCB's Automated Printed Circuit Board Testing Read More Implementing Automated Testing in Your PCBA Manufacturing Process Automated Printed Circuit Board Testing Read More Measuring Sound Sensor Fundamentals Read More Measuring Strain Sensor Fundamentals Read More Measuring Pressure Sensor Fundamentals Read More Measuring Load Sensor Fundamentals Read More Measuring Torque Sensor Fundamentals Read More

Back Implementing Automated Testing in Your PCBA Manufacturing Process Automated Printed Circuit Board Testing Assess Your Testing Needs Start by assessing your specific testing needs and requirements. Consider the types of tests you need to perform, the performance criteria, and the desired level of quality control. This will help you determine the scope and complexity of your automated testing system. Research & Select the Right Equipment Research and select the right equipment and software for your testing process. Consider factors such as test accuracy, test speed, ease of use, scalability, and compatibility with your existing manufacturing process. Consult with experts in the field, attend trade shows and conferences, and request demonstrations or trials to evaluate different options. Design Test Fixtures Design test fixtures that securely hold the PCBs, provide proper alignment and contact, and allow for easy insertion and removal of the boards. Consider the specific requirements of your PCB designs and ensure that the test fixtures can accommodate different board sizes and configurations. Test the fixtures with sample PCBs to ensure proper functionality. Develop Test Sequences & Parameters Develop test sequences and parameters that accurately reflect your testing requirements. This includes defining the order of tests, the specific measurements and analysis to be performed, and the pass/fail criteria. Consider the complexity of your test procedures and ensure that the automated testing system can handle them accurately and consistently. Test the sequences and parameters with sample PCBs to ensure accurate and reliable results. Deploy and Validate Develop test sequences and parameters that accurately reflect your testing requirements. This includes defining the order of tests, the specific measurements and analysis to be performed, and the pass/fail criteria. Consider the complexity of your test procedures and ensure that the automated testing system can handle them accurately and consistently. Test the sequences and parameters with sample PCBs to ensure accurate and reliable results. Previous Next

Back Components of Automated Testing System for PCBA Automated Printed Circuit Board Testing Printed Circuit Board Test Fixtures Test fixtures are used to securely hold the PCBs during the testing process. These fixtures ensure proper alignment and contact between the PCB and the testing equipment. Test fixtures can be custom-designed to accommodate different board sizes and configurations, allowing for efficient testing of various PCB designs. Printed Circuit Board Test Equipment Test equipment includes a wide range of tools and instruments used to perform different types of tests on PCBs. This may include oscilloscopes, multimeters, logic analyzers, and power supplies. The choice of test equipment depends on the specific requirements of your testing process and the types of tests you need to perform. Printed Circuit Board Test Software Software plays a critical role in automated testing systems. It allows you to program and control the testing process, configure test sequences and parameters, and analyze test results. The software also provides traceability and documentation of test results, enabling manufacturers to track and analyze data for quality control purposes. PCB Testing Equipment Communication Interface The communication interface allows the automated testing system to interact with other systems and devices, such as production control systems or data collection systems. This interface enables seamless integration of the testing process with other stages of the manufacturing process, ensuring efficient workflow and data exchange. PCBA Test Data Management System & Reports A data management system is used to store, organize, and analyze test data. This system allows manufacturers to track and analyze data for quality control purposes, identify trends or patterns, and make informed decisions based on the test results. The data management system also provides traceability and documentation of test results, ensuring compliance with regulatory requirements and customer expectations. By understanding the components of an automated testing system for PCBA, you can make informed decisions when selecting the right equipment and software for your testing process. It is essential to choose a system that meets your specific requirements, offers flexibility and scalability, and integrates seamlessly with your existing manufacturing process. Previous Next

Back Implementing Automated Testing in Your Printed Circuit Board Assembly Manufacturing Process Automated Printed Circuit Board Testing Assess Your Testing Needs Start by assessing your specific testing needs and requirements. Consider the types of tests you need to perform, the performance criteria, and the desired level of quality control. This will help you determine the scope and complexity of your automated testing system. Research & Select the Right Equipment Research and select the right equipment and software for your testing process. Consider factors such as test accuracy, test speed, ease of use, scalability, and compatibility with your existing manufacturing process. Consult with experts in the field, attend trade shows and conferences, and request demonstrations or trials to evaluate different options. Design Test Fixtures Design test fixtures that securely hold the PCBs, provide proper alignment and contact, and allow for easy insertion and removal of the boards. Consider the specific requirements of your PCB designs and ensure that the test fixtures can accommodate different board sizes and configurations. Test the fixtures with sample PCBs to ensure proper functionality. Develop Test Sequences & Parameters Develop test sequences and parameters that accurately reflect your testing requirements. This includes defining the order of tests, the specific measurements and analysis to be performed, and the pass/fail criteria. Consider the complexity of your test procedures and ensure that the automated testing system can handle them accurately and consistently. Test the sequences and parameters with sample PCBs to ensure accurate and reliable results. Deploy and Validate Develop test sequences and parameters that accurately reflect your testing requirements. This includes defining the order of tests, the specific measurements and analysis to be performed, and the pass/fail criteria. Consider the complexity of your test procedures and ensure that the automated testing system can handle them accurately and consistently. Test the sequences and parameters with sample PCBs to ensure accurate and reliable results. Previous Next

Back Components of Automated Testing System for Printed Circuit Board Assembly Automated Printed Circuit Board Testing Printed Circuit Board Test Fixtures Test fixtures are used to securely hold the PCBs during the testing process. These fixtures ensure proper alignment and contact between the PCB and the testing equipment. Test fixtures can be custom-designed to accommodate different board sizes and configurations, allowing for efficient testing of various PCB designs. Printed Circuit Board Test Equipment Test equipment includes a wide range of tools and instruments used to perform different types of tests on PCBs. This may include oscilloscopes, multimeters, logic analyzers, and power supplies. The choice of test equipment depends on the specific requirements of your testing process and the types of tests you need to perform. Printed Circuit Board Test Software Software plays a critical role in automated testing systems. It allows you to program and control the testing process, configure test sequences and parameters, and analyze test results. The software also provides traceability and documentation of test results, enabling manufacturers to track and analyze data for quality control purposes. PCB Testing Equipment Communication Interface The communication interface allows the automated testing system to interact with other systems and devices, such as production control systems or data collection systems. This interface enables seamless integration of the testing process with other stages of the manufacturing process, ensuring efficient workflow and data exchange. PCBA Test Data Management System & Reports A data management system is used to store, organize, and analyze test data. This system allows manufacturers to track and analyze data for quality control purposes, identify trends or patterns, and make informed decisions based on the test results. The data management system also provides traceability and documentation of test results, ensuring compliance with regulatory requirements and customer expectations. By understanding the components of an automated testing system for PCBA, you can make informed decisions when selecting the right equipment and software for your testing process. It is essential to choose a system that meets your specific requirements, offers flexibility and scalability, and integrates seamlessly with your existing manufacturing process. Previous Next

COMPANY Careers Home > Company > Careers ENHANCING how the world brings products to LIFE One of our core values at Cyth Systems is to create a long-lasting career where we get to follow our natural interests and passions every day. ​ Our projects provide such variety that you never stop exploring and growing. We work with talented people at many world-class companies in nearly every industry. We work on numerous projects that make a difference in everyday life . We delight in planning what we will build and then bringing equipment to life. We leave work with the rewards of one successful project after another. And much more...​ Join our team At Cyth, no two days and no two projects are the same. It's that variety of engineering challenges, plus the chance to work with amazing people and world class companies in practically every industry that gets me excited every day for over 20 years. ​ - Joe Spinozzi, CEO Cyth Sytems, Inc. Career Opportunities Technical Field Sales Engineer San Diego, CA, USA March 15, 2024 View Job Project Engineer San Diego, CA, USA March 15, 2024 View Job Senior LabVIEW Engineer San Diego, CA, USA March 15, 2024 View Job Join our team

ENGINEERING LIBRARY Engineering Events Anaheim Electronics & Manufacturing Show 2023 Anaheim Electronics & Manufacturing Show - Anaheim Convention Center, Anaheim, CA - Booth’s 717 & 719 Anaheim Electronics & Manufacturing Show 2023 BioMedDevice 2023 BIOMEDevice Silicon Valley - Santa Clara Convention Center - Booth #: 935 BioMedDevice 2023 Del Mar Electronics & Manufacturing Show 2023 Del Mar Electronics & Manufacturing Show - Del Mar Fairgrounds, San Diego, California - Booth’s 1122 & 1124 Del Mar Electronics & Manufacturing Show 2023 MD&M West 2024 MD&M West is a critical event for the medical device, biotech, and pharmaceutical industries, offering a platform to explore cutting-edge technologies, regulatory updates, and manufacturing solutions. It showcases industry advances in design and production, and drives forward the development of key technologies. MD&M West 2024

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Career Opportunity Technical Field Sales Engineer Technical Field Sales Engineer San Diego, CA, USA Job Summary Cyth Systems is looking for a Field Sales Engineer to visit with new and existing customers, understand their technology goals, and research a solution with our own engineering team, to help customers decide on a solution to their requirements. Job Description Cyth Systems is looking for a Field Sales Engineer to visit with new and existing customers, understand their technology goals, and research a solution with our own engineering team, to help customers decide on a solution to their requirements. About Cyth Cyth Systems is an Engineering Integration Company specializing in Automated Test Equipment, Embedded Control Systems, and Machine Vision Systems. We enjoy working with our customers, both small and large, from nearly every market. We combine a world-class engineering team, and our customers appreciate both the personal and professional treatment we bring to their projects. You will grow your business acumen and strategic sales capabilities while consulting with engineers and their leadership to make major design and equipment investments. What is especially unique about this position is working in several industries such as Life Sciences, Semiconductor, Product Manufacturing, Sporting Goods, Aerospace, Energy and more. If you enjoy a collaborative environment where you can be a part of a team who build things and bring them to life, across a diverse range of industries and applications, come join our team at Cyth Systems! Qualifications This position requires skill and experience in the following areas: Experience working with and proposing engineering services and solutions. Experience selling in a long sales cycle with complex custom engineering for both hardware and software solutions. Knowledge of Test Automation and embedded control hardware and software Experience selling to engineering leadership, including Directors and VPs 3+ years’ experience in business-to-business high tech sales Excellent English communication (written and spoken) Responsibilities Planning and executing territory and account development initiatives to generate demand in identified areas of greatest opportunity. Technical consulting with customer engineers and managers to understand and address their technical and business requirements with the best Cyth and Partner products and services that meet their needs. Managing and closing sales opportunities through collaborations with Cyth and Partner resources. Networking and discovery within assigned accounts to engage with new groups, create and sustain valued relationships with customer leadership, and identify new qualified sales opportunities. Achieve annual quota and quarterly targets to achieve commission & bonus. Generate demand for products through effective top account plans and overall territory strategy. Effectively lead Cyth and Partner resources to close sales. Adapt and lead client presentations and product demonstrations. Learn the Cyth and Partner product and service offerings and relevant value propositions. Demonstrate account knowledge and ability to impact revenue by utilizing sales tracking systems and providing accurate forecasts. Other responsibilities Technical degree with a major in Electrical, Computer, Mechanical Engineering, Physics, Computer Science, or similar Sales: 3 years Technical sales: 1 year Valid driver’s license and reliable transportation Travel locally to visit customers. Ability to work in-office full-time in San Diego, CA Must be able to lift 5–10-pound objects, 5-10 times per day. Prolonged periods sitting at a desk and working on a computer. Ability to commute/relocate: San Diego, CA 92126: Reliably commute or planning to relocate before starting work (Required) Experience: Sales: 1 year (Required) Technical sales: 1 year (Required) Work Location: In person Job Type: Full-time Supplemental pay types: Commission pay Schedule: 8-hour shift Submit your resume today Name Phone Email Upload Resume Upload supported file (Max 15MB) Submit [attributer-channel] [attributer-channeldrilldown1] [attributer-channeldrilldown2] [attributer-landingpage] [attributer-landingpagegroup] [attributer-channeldrilldown3]

Career Opportunity Senior LabVIEW Engineer Senior LabVIEW Engineer San Diego, CA, USA Job Summary Reports to: Director of Engineering Exemption Status: Full-time Exempt Location: Onsite Job Description We are looking for an experienced and motivated Senior LabVIEW Engineer to join our dynamic engineering team, responsible for tackling a variety of projects. As we take on more customers and projects than ever before, we are hiring at every level and need an experienced leader to captain the team. Your main responsibility will be designing and developing custom systems for various applications within multiple industries. You will play a critical role in developing LabVIEW code and configuring hardware to bring Automated Test and Embedded Control systems to completion. You will also be responsible for LabVIEW code review, de-bugging, and overall system support. About Cyth Cyth Systems is an expanding engineering company that works alongside the most impressive and exciting companies in California, the United States, and Europe. Cyth Systems services companies in multiple industries including life sciences, biotech, automotive, energy, semiconductor, technology, and manufacturing. The dynamic nature of our customer base provides our team with an exciting and fulfilling career full of opportunity to develop as an engineering professional. We are a purpose led and performance driven team; and we look forward to your fresh perspective and contribution as we support innovation. Qualifications Bachelor's degree in STEM-related field or equivalent experience 3+ years of Test System or Embedded System development LabVIEW certification (CLD, CLED, CLA) or equivalent experience with LabVIEW Responsibilities Oversee project development as the Project Manager. Take the lead on challenging code development and debugging. Architect and design projects from scratch in LabVIEW. Interface with all forms of NI hardware and third-party hardware using multiple technologies. Independently solve challenges such as interfacing with new equipment, computations or algorithms, and demanding customer applications. Develop code tools designed for simplicity and reuse. Serve as a mentor to other engineers by providing training, debug assistance, and demonstrating best practices of engineering, design, and industry. Visit customer sites and host on-site customer visits to build relationships and gain a deeper understanding of project requirements. Other responsibilities Valid driver's license and reliable transportation Ability to work in-office full-time in San Diego, CA Must be able to lift 20-50 pound objects 5-10 times per day Prolonged periods of sitting at a desk and working on a computer Job Type: Full-time Salary: $85,000.00 - $140,000.00 per year Schedule 8 hour shift Work Location: In person Submit your resume today Name Phone Email Upload Resume Upload supported file (Max 15MB) Submit [attributer-channel] [attributer-channeldrilldown1] [attributer-channeldrilldown2] [attributer-landingpage] [attributer-landingpagegroup] [attributer-channeldrilldown3]

Career Opportunity Project Engineer Project Engineer San Diego, CA, USA Job Summary Reports to: Director of Engineering Exemption Status: Full-time Exempt Location: Onsite Job Description We are looking for a motivated project engineer to join our dynamic engineering team, responsible for tackling a variety of projects. Your main responsibility will be designing and developing custom systems for various applications alongside the broader engineering team and project architect. System assembly and validation will be your critical job function along with an equal degree of programming within LabVIEW to assist in project completion. About Cyth Cyth Systems is an expanding engineering company that works alongside the most impressive and exciting companies in California, the United States, and Europe. Cyth Systems services companies in multiple industries including life sciences, biotech, automotive, energy, semiconductor, technology, and manufacturing. The dynamic nature of our customer base provides our team with an exciting and fulfilling career full of opportunity to develop as an engineering professional. We are a purpose led and performance driven team; and we look forward to your fresh perspective and contribution as we support innovation. Qualifications Bachelor's degree in STEM-related field or equivalent experience. 1+ years of engineering related experience. Experience with high-level programming language, LabVIEW highly preferred. Analytical and problem-solving skills. Self-motivated to excel in assigned responsibilities and team projects. Resposibilities Lead development of embedded, automated test, and vision systems. Support various projects with LabVIEW design and architecture. Collaborate with engineering team to design, assemble, test, and validate projects on both hardware and software fronts. Produce professional documentation related to system design and function. Review LabVIEW code for debugging, error diagnosis, and documentation. Other requirements Valid driver's license and reliable transportation. Ability to work in-office full-time in San Diego, CA. Must be able to lift 20-50 pound objects 5-10 times per day. Prolonged periods of sitting at a desk and working on a computer. JobType: Full-time Salary: $69,000.00 - $95,000.00 per year Benefits: 401(k) matching Dental insurance Health insurance Life insurance Paid time off Vision insurance Schedule 8 hour shift Ability to commute/relocate: San Diego, CA 92126: Reliably commute or planning to relocate before starting work (Required) Work Location: In person Submit your resume today Name Phone Email Upload Resume Upload supported file (Max 15MB) Submit [attributer-channel] [attributer-channeldrilldown1] [attributer-channeldrilldown2] [attributer-landingpage] [attributer-landingpagegroup] [attributer-channeldrilldown3]

Elevating The World of Medical Device February 6, 2024 February 8, 2024 MD&M West - Anaheim, CA - February 6-8, 2024 - Anaheim Convention Center - Booth 2987

Del Mar Electronics & Manufacturing Show 2023 April 26, 2023 April 27, 2023 Del Mar Electronics & Manufacturing Show - Del Mar Fairgrounds, San Diego, California - Booth’s 1122 & 1124 Del Mar Electronic & Manufacturing Show is an event that will be held from 25 -26 Apr 2024 at the Del Mar Fairgrounds in San Diego, California. The Del Mar Electronic & Manufacturing Show highlights consumer products and services in electronics and technology. It’s great to see the SoCal engineering community thrive! The Del Mar Electronics and Manufacturing Show is a great place to connect with the industry.

BioMedDevice 2023 November 15, 2023 November 16, 2023 BIOMEDevice Silicon Valley - Santa Clara Convention Center - Booth #: 935 BIOMEDevice is a meeting place for engineers and business leaders from MedTech, biotech, and pharma, to inspire and collaborate on the next life-changing medical device. In just two days, you will discover new suppliers showcasing the latest technologies transforming medical devices, engage in expert led education discussing topics from regulations to design, and connect with industry pioneers on the latest market trends. Join us at BIOMEDevice to revolutionize the way healthcare is delivered and bring innovation to life.

MD&M West 2024 February 6, 2024 February 8, 2024 MD&M West is a critical event for the medical device, biotech, and pharmaceutical industries, offering a platform to explore cutting-edge technologies, regulatory updates, and manufacturing solutions. It showcases industry advances in design and production, and drives forward the development of key technologies. Validation of batteries and circuit boards proved to be roadblocks for the industry leaders who attended the show. By leveraging NI's platform, we are able to offer comprehensive testing solutions for both of these pain points. See the link below to explore our offerings.

Anaheim Electronics & Manufacturing Show 2023 September 27, 2023 September 28, 2023 Anaheim Electronics & Manufacturing Show - Anaheim Convention Center, Anaheim, CA - Booth’s 717 & 719 It’s great to see the SoCal-Anaheim engineering community thrive! The Anaheim Electronics & Manufacturing Show is a great place to connect with the industry. Come check us out at the Anaheim Electronics and Manufacturing Show! Booth’s 717 & 719.

Back Implementing Automated Testing in Your Printed Circuit Board Assembly Manufacturing Process Copy Automated Printed Circuit Board Testing Assess Your Testing Needs Start by assessing your specific testing needs and requirements. Consider the types of tests you need to perform, the performance criteria, and the desired level of quality control. This will help you determine the scope and complexity of your automated testing system. Research & Select the Right Equipment Research and select the right equipment and software for your testing process. Consider factors such as test accuracy, test speed, ease of use, scalability, and compatibility with your existing manufacturing process. Consult with experts in the field, attend trade shows and conferences, and request demonstrations or trials to evaluate different options. Design Test Fixtures Design test fixtures that securely hold the PCBs, provide proper alignment and contact, and allow for easy insertion and removal of the boards. Consider the specific requirements of your PCB designs and ensure that the test fixtures can accommodate different board sizes and configurations. Test the fixtures with sample PCBs to ensure proper functionality. Develop Test Sequences & Parameters Develop test sequences and parameters that accurately reflect your testing requirements. This includes defining the order of tests, the specific measurements and analysis to be performed, and the pass/fail criteria. Consider the complexity of your test procedures and ensure that the automated testing system can handle them accurately and consistently. Test the sequences and parameters with sample PCBs to ensure accurate and reliable results. Deploy and Validate Develop test sequences and parameters that accurately reflect your testing requirements. This includes defining the order of tests, the specific measurements and analysis to be performed, and the pass/fail criteria. Consider the complexity of your test procedures and ensure that the automated testing system can handle them accurately and consistently. Test the sequences and parameters with sample PCBs to ensure accurate and reliable results. Previous Next

Back Measuring Torque Sensor Fundamentals Assess Your Testing Needs Many measurement sensors, such as accelerometers and load cells generate DC voltages that can be measured. There are considerations that come along with each measurement and sensor type. This guide will explain general DC voltage measurements that do not involve sensor setup. Voltage is the simplest of the different types of analog measurements, and yet still presents unique challenges regarding noise considerations. Research & Select the Right Equipment Research and select the right equipment and software for your testing process. Consider factors such as test accuracy, test speed, ease of use, scalability, and compatibility with your existing manufacturing process. Consult with experts in the field, attend trade shows and conferences, and request demonstrations or trials to evaluate different options. Design Test Fixtures Design test fixtures that securely hold the PCBs, provide proper alignment and contact, and allow for easy insertion and removal of the boards. Consider the specific requirements of your PCB designs and ensure that the test fixtures can accommodate different board sizes and configurations. Test the fixtures with sample PCBs to ensure proper functionality. Develop Test Sequences & Parameters Develop test sequences and parameters that accurately reflect your testing requirements. This includes defining the order of tests, the specific measurements and analysis to be performed, and the pass/fail criteria. Consider the complexity of your test procedures and ensure that the automated testing system can handle them accurately and consistently. Test the sequences and parameters with sample PCBs to ensure accurate and reliable results. Deploy and Validate Develop test sequences and parameters that accurately reflect your testing requirements. This includes defining the order of tests, the specific measurements and analysis to be performed, and the pass/fail criteria. Consider the complexity of your test procedures and ensure that the automated testing system can handle them accurately and consistently. Test the sequences and parameters with sample PCBs to ensure accurate and reliable results. Previous Next

Back Measuring Load Sensor Fundamentals Assess Your Testing Needs Many measurement sensors, such as accelerometers and load cells generate DC voltages that can be measured. There are considerations that come along with each measurement and sensor type. This guide will explain general DC voltage measurements that do not involve sensor setup. Voltage is the simplest of the different types of analog measurements, and yet still presents unique challenges regarding noise considerations. Research & Select the Right Equipment Research and select the right equipment and software for your testing process. Consider factors such as test accuracy, test speed, ease of use, scalability, and compatibility with your existing manufacturing process. Consult with experts in the field, attend trade shows and conferences, and request demonstrations or trials to evaluate different options. Design Test Fixtures Design test fixtures that securely hold the PCBs, provide proper alignment and contact, and allow for easy insertion and removal of the boards. Consider the specific requirements of your PCB designs and ensure that the test fixtures can accommodate different board sizes and configurations. Test the fixtures with sample PCBs to ensure proper functionality. Develop Test Sequences & Parameters Develop test sequences and parameters that accurately reflect your testing requirements. This includes defining the order of tests, the specific measurements and analysis to be performed, and the pass/fail criteria. Consider the complexity of your test procedures and ensure that the automated testing system can handle them accurately and consistently. Test the sequences and parameters with sample PCBs to ensure accurate and reliable results. Deploy and Validate Develop test sequences and parameters that accurately reflect your testing requirements. This includes defining the order of tests, the specific measurements and analysis to be performed, and the pass/fail criteria. Consider the complexity of your test procedures and ensure that the automated testing system can handle them accurately and consistently. Test the sequences and parameters with sample PCBs to ensure accurate and reliable results. Previous Next

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Back Measuring Direct Current (DC) Voltage Sensor Fundamentals Assess Your Testing Needs Many measurement sensors, such as accelerometers and load cells generate DC voltages that can be measured. There are considerations that come along with each measurement and sensor type. This guide will explain general DC voltage measurements that do not involve sensor setup. Voltage is the simplest of the different types of analog measurements, and yet still presents unique challenges regarding noise considerations. Research & Select the Right Equipment Research and select the right equipment and software for your testing process. Consider factors such as test accuracy, test speed, ease of use, scalability, and compatibility with your existing manufacturing process. Consult with experts in the field, attend trade shows and conferences, and request demonstrations or trials to evaluate different options. Design Test Fixtures Design test fixtures that securely hold the PCBs, provide proper alignment and contact, and allow for easy insertion and removal of the boards. Consider the specific requirements of your PCB designs and ensure that the test fixtures can accommodate different board sizes and configurations. Test the fixtures with sample PCBs to ensure proper functionality. Develop Test Sequences & Parameters Develop test sequences and parameters that accurately reflect your testing requirements. This includes defining the order of tests, the specific measurements and analysis to be performed, and the pass/fail criteria. Consider the complexity of your test procedures and ensure that the automated testing system can handle them accurately and consistently. Test the sequences and parameters with sample PCBs to ensure accurate and reliable results. Deploy and Validate Develop test sequences and parameters that accurately reflect your testing requirements. This includes defining the order of tests, the specific measurements and analysis to be performed, and the pass/fail criteria. Consider the complexity of your test procedures and ensure that the automated testing system can handle them accurately and consistently. Test the sequences and parameters with sample PCBs to ensure accurate and reliable results. Previous Next

Back Implementing Automated Testing in Your Printed Circuit Board Assembly Manufacturing Process Automated Printed Circuit Board Testing Assess Your Testing Needs Start by assessing your specific testing needs and requirements. Consider the types of tests you need to perform, the performance criteria, and the desired level of quality control. This will help you determine the scope and complexity of your automated testing system. Research & Select the Right Equipment Research and select the right equipment and software for your testing process. Consider factors such as test accuracy, test speed, ease of use, scalability, and compatibility with your existing manufacturing process. Consult with experts in the field, attend trade shows and conferences, and request demonstrations or trials to evaluate different options. Design Test Fixtures Design test fixtures that securely hold the PCBs, provide proper alignment and contact, and allow for easy insertion and removal of the boards. Consider the specific requirements of your PCB designs and ensure that the test fixtures can accommodate different board sizes and configurations. Test the fixtures with sample PCBs to ensure proper functionality. Develop Test Sequences & Parameters Develop test sequences and parameters that accurately reflect your testing requirements. This includes defining the order of tests, the specific measurements and analysis to be performed, and the pass/fail criteria. Consider the complexity of your test procedures and ensure that the automated testing system can handle them accurately and consistently. Test the sequences and parameters with sample PCBs to ensure accurate and reliable results. Deploy and Validate Develop test sequences and parameters that accurately reflect your testing requirements. This includes defining the order of tests, the specific measurements and analysis to be performed, and the pass/fail criteria. Consider the complexity of your test procedures and ensure that the automated testing system can handle them accurately and consistently. Test the sequences and parameters with sample PCBs to ensure accurate and reliable results. Previous Next

Back Components of Automated Testing System for Printed Circuit Board Assembly Automated Printed Circuit Board Testing Printed Circuit Board Test Fixtures Test fixtures are used to securely hold the PCBs during the testing process. These fixtures ensure proper alignment and contact between the PCB and the testing equipment. Test fixtures can be custom-designed to accommodate different board sizes and configurations, allowing for efficient testing of various PCB designs. Printed Circuit Board Test Equipment Test equipment includes a wide range of tools and instruments used to perform different types of tests on PCBs. This may include oscilloscopes, multimeters, logic analyzers, and power supplies. The choice of test equipment depends on the specific requirements of your testing process and the types of tests you need to perform. Printed Circuit Board Test Software Software plays a critical role in automated testing systems. It allows you to program and control the testing process, configure test sequences and parameters, and analyze test results. The software also provides traceability and documentation of test results, enabling manufacturers to track and analyze data for quality control purposes. PCB Testing Equipment Communication Interface The communication interface allows the automated testing system to interact with other systems and devices, such as production control systems or data collection systems. This interface enables seamless integration of the testing process with other stages of the manufacturing process, ensuring efficient workflow and data exchange. PCBA Test Data Management System & Reports A data management system is used to store, organize, and analyze test data. This system allows manufacturers to track and analyze data for quality control purposes, identify trends or patterns, and make informed decisions based on the test results. The data management system also provides traceability and documentation of test results, ensuring compliance with regulatory requirements and customer expectations. By understanding the components of an automated testing system for PCBA, you can make informed decisions when selecting the right equipment and software for your testing process. It is essential to choose a system that meets your specific requirements, offers flexibility and scalability, and integrates seamlessly with your existing manufacturing process. Previous Next

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