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Advanced earth testing kits by KPM for precise ground resistance measurement, soil resistivity testing, and electrical safety compliance. TOPRAK / ZEMİN TESTİ Earth Tester - Spike Yöntemi Daha fazlasını öğrenin Earth Tester (Spike Method) KPM -ET30K Earth Resistance & Soil Resistivity Tester is specially designed and manufactured for measuring earth resistance, soil resistivity, earth voltage &_cc781905-5cde-3194-bb3b- 136bad5cf58d_AC gerilimi. ET30K adopts the latest technology for precise 4-pole, 3 -pole and simple 2-pole measurement for earth direnç. importing FFT and AFC technology,_cc781905-5cde- 3194-bb3b-136bad5cf58d_ with a unique function of anti-interference capability and the ability to adapt to the_cc781905-5cde-3194- bb3b-136bad5cf58d_ environment, consistency of repeat testing,_cc781905-5cde-3194-bb3b -136bad5cf58d_ uzun süreli ölçümlerde yüksek hassasiyet, yüksek kararlılık ve güvenilirlik sağlamak için Toprak Test Cihazı - Kelepçe Yöntemi Daha fazlasını öğrenin Kelepçeli Topraklama Test Cihazı (KPM-CET1200) is zemin direnci ölçümünde yaygın olarak uygulanır, loop elektrik_cc781905-5cde-3194-bb3cd5b-5b-136 gibi alanlarda direnç ölçümü , petrol sahası, architecture and endüstriyel elektrikli ekipman, etc. Döngü ile zemin sistemini ölçerken, hiçbir zemin bağlantısını kesme ihtiyacı yoktur yardımcı olmayan tel electrode, bu daha güvenli ve daha hızlı anlamına gelir. Clamp Topraklama Test Cihazının (KPM-CET1200) Temel Özellikleri Toprak direncini/döngü direncini ölçer Büyük çene ölçüsü (65mmx32mm) Geniş direnç ölçüm aralığı (0,01Ω ila 1200Ω) Geniş akım ölçüm aralığı (0,01A - 20A) Karşılıklı bağlı toprak çukuru devrelerini test etmek için ideal Earth Tester - Spike Yöntemi Daha fazlasını öğrenin Earth Tester (Spike Method) KPM -ET30K Earth Resistance & Soil Resistivity Tester is specially designed and manufactured for measuring earth resistance, soil resistivity, earth voltage &_cc781905-5cde-3194-bb3b- 136bad5cf58d_AC gerilimi. ET30K adopts the latest technology for precise 4-pole, 3 -pole and simple 2-pole measurement for earth direnç. importing FFT and AFC technology,_cc781905-5cde- 3194-bb3b-136bad5cf58d_ with a unique function of anti-interference capability and the ability to adapt to the_cc781905-5cde-3194- bb3b-136bad5cf58d_ environment, consistency of repeat testing,_cc781905-5cde-3194-bb3b -136bad5cf58d_ uzun süreli ölçümlerde yüksek hassasiyet, yüksek kararlılık ve güvenilirlik sağlamak için Çevrimiçi Toprak Test Cihazı (GERM) Daha fazlasını öğrenin Kritik Topraklama Sisteminizin sağlığını çevrimiçi izlemek için Son Teknoloji Cihaz Izgara Toprak Direnci Monitörü (Germ ), Online'ın Toprak Çukurlarının gerçek zamanlı toprak direnci değerini izleyen ve herhangi bir arıza tespit ettiğinde alarm veren bir art cihazının durumudur . Siteden gelen tüm bilgiler güvenli bir şekilde gelişmiş iletişim yöntemleri ile sunucuya gönderilir. Sık Sorulan Sorular ( SSS ) FAQ about Earth testing : 01 Difference between Clamp and Spike Method? Earth Resistance Testing: Clamp vs. Spike Method : The Clamp Method and the Spike (Fall-of-Potential) Method are two commonly used techniques for measuring earth resistance, each with distinct use cases. The Spike Method (also known as the three-point or fall-of-potential method) is considered the most accurate and is typically used during installation or scheduled maintenance when it’s feasible to disconnect the grounding system. It requires driving two auxiliary spikes into the ground at set distances from the earth electrode and measuring the voltage drop created by a test current. This method provides a true earth resistance value but is time-consuming, invasive, and requires open ground access. In contrast, the Clamp Method (or Stakeless method) is a quick, non-intrusive test ideal for live systems where disconnecting the earth rod is not possible. Using a special clamp meter, the method induces a test signal and measures current flow through parallel earth paths. It’s convenient and fast but is only applicable when multiple grounding paths exist (e.g., in mesh or grid systems). The Clamp Method does not provide accurate results for isolated earth rods or when there is only a single grounding point. In summary, the Spike Method is best for accurate baseline testing during commissioning, while the Clamp Method is ideal for routine checks on operational systems without disrupting service. 02 How to Ensure Compliance With Earth Testing in Renewable Sites? Ensuring Compliance with Earth Testing in Renewable Sites : To ensure safety and meet regulatory standards in solar, wind, or hybrid renewable energy systems, proper earth resistance testing is essential. Key Steps: Follow Standards: Comply with IEC 60364, IEEE 80, BS 7430, or local codes. Test Soil Early: Conduct soil resistivity surveys during design to select the right grounding method. Use Proper Methods: Apply the Fall-of-Potential method for commissioning and Clamp Method for periodic checks. Keep Records: Log all test data with method, instrument, and environmental details. Test Regularly: Schedule annual or biannual resistance tests to catch degradation early. Use Remote Monitoring (if available): SCADA or sensors can track resistance levels continuously. Train Personnel: Ensure field staff know correct testing procedures and safety protocols. Third-Party Verification: For audits or large projects, use certified inspectors for compliance reporting. 03 What will be seasonal Impact on Ground Resistance Measurements? Seasonal Impact on Ground Resistance Measurements Ground resistance values can vary significantly with seasonal changes due to environmental factors affecting soil conditions: Soil Moisture: During wet seasons (rainy or winter), soil moisture increases, lowering ground resistance by improving conductivity. Conversely, dry seasons cause soil to dry out, increasing resistance. Soil Temperature: Colder temperatures can increase soil resistivity as water in soil may freeze, reducing conductivity. Warmer temperatures generally improve conductivity. Soil Composition Changes: Seasonal changes in organic matter decomposition and salt concentration may also affect soil resistivity. Vegetation and Ground Cover: Plant growth during certain seasons can affect soil moisture retention and contact with grounding electrodes. Implications Testing during different seasons may yield varying results; hence, baseline measurements should be taken in both dry and wet conditions to understand worst-case scenarios. For accurate monitoring and compliance, schedule tests consistently or adjust acceptable resistance thresholds based on seasonal variation.

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KPM India |We are electrical test equipment manufacturers, We deal in CT PT Analyzer, Relay Test Kit , Tan delta , Transformer Test Kits , LA Testers etc. |Career | https://www.kpmtek.com/career Do you have it in you Careers "Welcome to KPM's Careers Page, where opportunities for growth and innovation abound. At the heart of our success is a vibrant culture that values collaboration, diversity, and continuous learning. We're on a mission "to bring reliable & robust solutions to customers all across the world with best ROI and backing them with expert application support " , and we're searching for dedicated individuals who share our commitment to excellence. Explore our current job openings and discover a workplace where your unique skills and aspirations can thrive. Our employees are at the core of our success, and we invite you to be a part of our dynamic team. With comprehensive benefits, a commitment to diversity and inclusion, and a supportive environment, KPM is not just a workplace—it's a place to build a rewarding career. Take the first step toward joining us on this exciting journey!" Lab Assistant/Manager – Transformer Oil Testing Lab Tanzania Job Title: Lab Assistant – Transformer Oil Testing Lab Location: Tanzania Company: Confidencial, KPM's Client Joining : Immediate About the Role: We are seeking a dedicated and detail-oriented Lab Assistant to manage a state-of-the-art Transformer Oil Testing Lab for our esteemed client in Tanzania. This role offers an exciting opportunity to work with advanced diagnostic equipment and contribute to ensuring the reliability and efficiency of critical power sector assets. With infinite future growth prospects, this position is ideal for someone passionate about electrical testing and laboratory operations. Key Responsibilities: Conduct Dissolved Gas Analysis (DGA) to detect and diagnose faults in transformer oil. Perform Furan Analysis to assess the degradation of transformer insulation. Test Oil Acidity to monitor the chemical stability and performance of insulating oils. Operate and maintain the Karl Fischer Titrator for precise moisture content determination. Prepare oil samples, follow standard testing procedures, and document all results accurately. Ensure proper calibration and maintenance of lab equipment. Analyze test results and prepare detailed technical reports. Adhere to safety protocols and maintain a clean, organized lab environment. Collaborate with engineers and technical staff to interpret data and recommend actions. Qualifications and Skills: Diploma or Bachelor’s degree in Chemistry, Electrical Engineering, or a related field. Proven experience in transformer oil testing or similar laboratory environments. Familiarity with DGA, Furan Analysis, Oil Acidity tests, and Karl Fischer testing methods. Strong analytical and problem-solving skills. Excellent attention to detail and data recording accuracy. Ability to work independently and as part of a team. Effective communication skills for reporting and client interactions. Why Join Us: Opportunity to work in a growing power sector in Tanzania. Hands-on experience with cutting-edge testing equipment. Career advancement and future leadership opportunities. Collaborative and innovative work environment. Remuneration: Competitive salary based on experience and qualifications. Additional benefits and performance-based incentives. Opportunities for professional development and career growth. If you are passionate about electrical testing and eager to grow your career in a dynamic lab setting, we invite you to apply and become a vital part of our client’s success story. How to Apply: Please send your updated resume and a cover letter to consultant@kpmtek.com . We look forward to building the future of transformer diagnostics together! Customer Support Engineer - Electrical Testing Equip. Gurgaon , Bangalore We are a close-knit team of electrical engineers supplying and supporting our high-tech solutions in field of electrical testing and measuring equipment. We are looking for a self motivated Customer Support Engineer with below profile. Shall be capable of having technical discussions with customers and backing the sales team , Competition Study , Customer Tracing etc. Computer Savvy and capable of coordinating webinars, Ms Office Reporting , editing Technical Manuals & Data-sheets etc. Shall have basic knowledge in all electrical equipment such as ,Transformers, HV /MV and LV Switchgear, circuit breakers, earthing system, Lightning Arresters , Relays etc. Knowledge of below subjects will be an advantage -: CT / PT Testing Equipment Relay Testing Equipment Transformer Testing Equipment Circuit Breaker Testing Equipment Earth Testing You'll work in an office environment, but will frequently travel within the day for face-to-face meetings with customers and other business partners. You will be involved in technical discussions, product trainings and application support. If you are looking for a next level of challenge we motivate you to mail your CV to us today on below email ID - consultant@kpmtek.com

Advanced battery testing utility by KPM for precise battery diagnostics, performance testing, and maintenance across industrial and commercial systems. PİL TESTİ ( UTILITY ) Pil Direnci ve İletkenlik Test Cihazı Katalog KPM BA-02 Akü Analizörü BA-02 Battery Anlayzer, pilin iç direncini, iletkenliğini ve voltajı test etmek için çok etkili ve ekonomik bir pil yönetim cihazı olan gelişmiş bir test cihazıdır. Pil sistemlerinizin performansını sağlamak için zayıf pilleri ortadan kaldırmanıza yardımcı olur. Yedek kritik güç sistemlerinin ana bileşimi olan pil iç direncinin (veya iletkenliğinin) Valf Ayarlı Kurşun Asit (VRLA), Havalandırmalı Kurşun Asit (VLA) piller ve Ni-cd pillerin doğru ve tutarlı bir şekilde ölçülmesini sağlar. Bu pil test cihazı, çeşitli sektörlerde güç bütünlüğünü sağlamak için pil yönetimi ve ölçümü için servis sağlayıcılar, operasyonlar ve bakım ekipleri için yaygın olarak kullanılmaktadır. Pil Veri Kaydedici Katalog KPM BDL (Pil Veri Kaydedici) KPM BDL Serisi, pil voltajı, dizi voltajı, akım ve ortam sıcaklığı için IEEE ölçüm standartlarını karşılayacak şekilde güncellenmiş Batarya Veri Kaydedicidir. Farklı akü sistemleri için 12V ila 700V arasında özelleştirilmiştir. Ve tüm akü sistemleri için kolay genişleme özelliğine sahiptir. Wi-Fi iletişimi ile, tüm verileri kolayca görüntüleyebilir ve PC yazılımında test raporu oluşturabilirsiniz. Pil iç direncinin/iletkenliğinin hızlı testi için lütfen ayrıca adresine bakın.KPM BA 01 Batarya Durum Analizörü . Akü Yükü Bank Katalog KPM- Akü Yükü Bankası Sabit akım deşarj testi ve pil kapasitesi testi için birçok farklı modele sahip bir dizi özelleştirilmiş pil yük bankası sunuyoruz. 600A'e kadar akım ile 12V'tan 480V nominal gerilimlere kadar geniş bir voltaj aralığını kapsarlar. Çeşitli endüstrilerde yaygın olarak uygulanırlar. Opsiyonel Batarya Veri Toplama Kutusu (DAC) ile her bir hücrenin deşarj değerleri, Kongter'in veri görüntüleme yazılımı kullanılarak batarya yük bankasında ve PC yazılımında eş zamanlı olarak izlenebilmektedir. Aynı DAC in pil yük bankası, başka bir ürün yapmak için "String DAC" ile bağımsız olarak da çalışabilir, Battery Data Logger . Pil durumunun hızlı testi için lütfen adresine bakın.BA-01 Pil Durum Analizörü , pilin iç direncini/iletkenliğini saniyeler içinde test eder. Sıkça Sorulan Soru FAQ about all our battery utility : 01 What is the purpose of battery utility testing in backup power systems? Battery utility testing ensures the reliability, health, and performance of backup power systems used in utilities, substations, data centers, and critical infrastructure. Over time, batteries degrade due to factors like temperature, charge-discharge cycles, and age. Testing helps detect early signs of failure such as increased internal resistance, reduced capacity, or imbalance among cells. This enables timely maintenance or replacement, preventing unexpected power loss during outages. Utility testing validates whether batteries meet required discharge durations and ensures compliance with standards like IEEE 450 or IEC 60896. Regular testing minimizes downtime, enhances operational safety, and protects expensive downstream equipment. KPM provides advanced battery analyzers and constant current discharge kits designed for utility-scale battery banks. These instruments measure internal resistance, voltage, and capacity under load conditions. KPM’s systems are aligned with international testing standards and are used by utilities to perform periodic health checks, identify weak cells, and ensure uninterrupted power backup readiness. 02 What safety precautions must be taken during battery testing? Battery testing involves handling high voltages, currents, and hazardous chemicals, so strict safety precautions are essential. Always wear appropriate personal protective equipment (PPE) such as insulated gloves, eye protection, and flame-resistant clothing. Ensure proper ventilation, especially for lead-acid batteries that emit hydrogen gas during charging or discharging. Isolate the battery bank from the load before testing, and use insulated tools to prevent short circuits. Verify polarity before connecting test equipment to avoid damage or sparking. Never allow metal objects near open battery terminals. Maintain safe distances and use warning signs during high-current discharge tests. Monitor temperature rise and terminate testing if overheating or voltage instability is observed. Follow the manufacturer’s guidelines and applicable standards (IEEE, IEC) during every procedure. KPM’s battery analyzers and discharge testers are equipped with multiple safety features such as overcurrent protection, reverse polarity alarms, thermal cutoffs, and auto-shutdown. KPM also provides user training and safety documentation to ensure proper and secure operation. 03 How does internal resistance measurement indicate battery health? Internal resistance (IR) is the opposition a battery offers to current flow within its own structure. As batteries age or degrade, their internal resistance increases due to chemical wear, sulfation (in lead-acid), or electrode deterioration. Here's how it reflects battery health: Low IR = Healthy battery: Indicates good electrolyte condition, intact electrodes, and low energy loss during discharge. High IR = Degraded battery: Results in voltage drops under load, reduced capacity, and heat generation during operation. Rising IR over time signals aging or developing faults, even if voltage appears normal. Sudden spikes in IR may indicate failing cells or poor interconnections. Thus, internal resistance is a quick, non-invasive diagnostic metric used to identify weak or failing batteries before they cause critical power failures. KPM’s battery analyzers measure IR accurately across large battery banks, providing real-time indicators of cell health and enabling predictive maintenance. 04 What are the key parameters measured by a battery analyzer? A battery analyzer is used to assess the condition and performance of individual cells and complete battery banks. The key parameters it typically measures include: Internal Resistance (IR):Indicates the battery’s ability to deliver current. Higher resistance means deterioration or aging. Voltage (V): Measures the open-circuit voltage of each cell or unit to check state-of-charge and overall health. Conductance (optional): Used as an alternative to resistance in some analyzers to determine battery condition. Temperature (°C): Affects performance and safety. Monitoring ensures accurate readings and helps prevent overheating. State of Health (SoH): Some analyzers estimate the health of the battery based on historical and real-time data. Cell Imbalance: Detects inconsistencies among cells in a battery bank, which can lead to system failure. Ripple Voltage (if applicable): Monitors AC noise on DC lines, often in UPS and telecom systems. KPM’s battery analyzers measure all key parameters—internal resistance, voltage, temperature, and cell imbalance—with high accuracy. Features include: High-precision sensors and rugged design for utility environments, Built-in safety features (reverse polarity, overvoltage alerts), PC software for data logging, trending, and report generation. Widely used in substations, power plants, and telecom towers for preventive maintenance and health diagnostics. 05 Can battery conductivity testing detect early-stage cell degradation ? Conductivity is a measure of a battery’s ability to pass electrical current. In healthy batteries, conductivity is high because the internal chemical pathways are clean and efficient. As a cell begins to degrade (due to sulfation, corrosion, electrolyte breakdown, or plate shedding), these pathways become obstructed, causing conductivity to decrease—even before voltage or capacity noticeably drops. Early Detection: Changes in conductivity often occur before performance failures, allowing for early intervention. Identifies Weak Cells: It helps isolate underperforming cells within a battery bank. Prevents Failures: Enables predictive maintenance and avoids costly downtime. Monitors Aging: Tracks gradual degradation over time for lifecycle management. KPM’s advanced battery analyzers can perform conductivity or internal resistance-based diagnostics, depending on battery type. These tools help utility and industrial users identify subtle degradation trends early, plan timely maintenance, and ensure long-term battery reliability. 06 Why is constant current discharge testing crucial in critical power applications? Constant current discharge testing is essential because it directly evaluates a battery’s actual capacity and performance under load, simulating real-world power demands. In critical power applications—such as substations, hospitals, data centers, and telecom systems—batteries must supply reliable power during outages or switching events. If a battery cannot sustain the required current for the expected duration, it risks system failure, data loss, or equipment damage. Key reasons it’s crucial: Confirms True Capacity: Validates if the battery can deliver its rated ampere-hours (Ah) under specified load. Identifies Weak Batteries: Detects hidden degradation not revealed by voltage or internal resistance alone. Reveals Runtime Performance: Simulates backup duration under real conditions. Supports Preventive Maintenance: Enables data-driven decisions for battery replacement and servicing. KPM’s constant current discharge kits are designed for high-reliability environments. They offer programmable loads, auto cut-off, data logging, and safety features, ensuring accurate, safe, and standards-compliant capacity testing for critical backup systems. 07 How is the battery's capacity (Ah) validated through a discharge test? Battery capacity, measured in ampere-hours (Ah), is validated by discharging the battery at a constant current until it reaches its specified cut-off voltage. The total time it takes to reach that voltage determines the actual capacity using the formula: Capacity (Ah)=Discharge Current (A) × Discharge Time (hours) Example: If a battery is discharged at 10 A and it takes 5 hours to reach the end voltage, the delivered capacity is: 10 A × 5 hrs = 50 Ah This result is then compared to the battery’s rated capacity (e.g., 100 Ah). If it delivers significantly less, it indicates degradation or failure. KPM’s constant current discharge kits precisely control and monitor the discharge current and voltage. They record time-stamped data, auto-calculate Ah, and generate test reports. These tools comply with standards like IEEE 450, ensuring reliable capacity validation for utility and industrial batteries. 08 What role does ambient temperature play in discharge test accuracy? Ambient temperature has a significant impact on the accuracy and outcome of battery discharge tests. Battery performance is highly temperature-sensitive, particularly for lead-acid, lithium-ion, and Ni-Cd chemistries. At High Temperatures: Battery capacity appears higher because chemical reactions speed up. Can lead to overestimation of real-world performance. Increases the risk of thermal runaway or cell damage. At Low Temperatures: Capacity drops due to slower electrochemical activity. May result in underestimated performance and early cut-off in tests. Internal resistance rises, leading to voltage drops under load. Deviations from this temperature should be noted and corrected using manufacturer-specified compensation factors or software. KPM’s battery discharge testers and analyzers include temperature monitoring sensors. The system records ambient and cell temperatures during testing and can apply correction factors to ensure accurate capacity evaluation under varying environmental conditions. 09 How do we determine end-voltage for discharge cut-off? The end-voltage, or cut-off voltage, is the minimum voltage at which a battery should be discharged to avoid deep discharge damage and to ensure reliable capacity measurement. It is determined based on the battery type, rated capacity, discharge rate (C-rate), and manufacturer specifications. For example, a 12V lead-acid battery typically has an end-voltage of 10.5V (1.75V per cell) at standard rates. Discharging below this threshold can lead to irreversible sulfation, reduced life, or failure. In lithium-ion batteries, cut-off is often set higher (e.g., 2.5V–3.0V per cell) to protect cell chemistry and safety. The correct end-voltage ensures consistent and safe testing across different test cycles. It must also be adjusted for ambient temperature and load current, as higher loads can cause greater voltage sag. KPM’s discharge kits allow users to program end-voltage settings per battery specs. The system automatically halts testing at the preset voltage to prevent over-discharge and protect battery health. 10 How can test data be used to predict battery end-of-life? Battery test data—such as internal resistance, voltage, capacity, and temperature trends—can be analyzed over time to accurately predict end-of-life (EOL). A consistent increase in internal resistance and decline in capacity (Ah) are key indicators of aging. When a battery can no longer deliver at least 80% of its rated capacity, it is generally considered at the end of its useful life. Regular discharge tests and impedance measurements create a performance history that reveals degradation rates, enabling predictive analytics. By identifying abnormal changes, such as faster resistance rise in one cell compared to others, maintenance teams can isolate failing units early. Trend-based monitoring allows scheduling replacements before failures occur, ensuring reliability in critical applications. KPM’s analyzers and discharge kits offer data logging, graphing, and reporting features that help utilities and industries track battery health over time, enabling data-driven EOL prediction and proactive asset management.

We are a team of professionals with a collective experience of 120+ years experience with domain experience in industry sectors that include, Telecom, Media and Entertainment, BFSI, Automotive, Healthcare and Manufacturing. In terms of the industry horizontal, we have experience in: ●Embedded systems – Hardware, Firmware, Bootloaders, BSP, etc. ●Software development – Client-Server internet apps for mobiles as well as desktops. MIIT Initiative MIIT ( Make In India Technology ) - The Full Story We are a team of professionals with a collective experience of 120+ years experience. Each one of us has an extensive domain experience in industry sectors that include, Telecom, Media and Entertainment, BFSI, Automotive, Healthcare and Manufacturing. In terms of the industry horizontal, we have experience in: Embedded systems – Hardware, Firmware, Bootloaders, BSP, etc. Operating Systems and related tools – Compilers, IDE, Debuggers, Frameworks and libraries, Device Drivers, etc. Networking – Protocol stacks, LAN/WAN, Internet, both wireless and wireline. Wireless – 4G/5G networking. Software development – Client-Server internet apps for mobiles as well as desktops. Power Sector Applications of Electrical Testing & Measuring Equipment . Our Services Software Engineering ●Systems software ●Internet applications software ●GUI – Desktop and Mobile ●Software testing services – Manual and Automated. Electronics Engineering ●Consulting services ●Product engineering and dev. ●Hardware design and engineering ●Embedded systems solution engineering Technical Staffing We are fully equipped to expand and mobilize our specialized team at short notice to meet your tight deadlines efficiently. Team Dedication. Expertise. Passion. We are a grounded team, close enough to deeply understand your requirements and large enough to deliver with precision. We are fully equipped to expand and mobilise our specialised team at short notice to meet your tight deadlines efficiently. Portfolio CoFounder & Chairman Dr. Harish Chouhan Ph.D - Signal Processing and Comm. Sys. ( 1984 - 1989 ) Indian Institute Of Sciences, Bangalore Dr. Harish Chouhan is a high-tech visionary and an early pioneer in multiple cutting-edge industries. With a Ph.D. in Signal Processing and Communication Systems from the prestigious Indian Institute of Science (IISc, 1984–1989), he has made significant contributions to advancing technology across various sectors. With 43 years of expertise in hardware and software engineering, he has incubated and grown major businesses for Tatas ($20M+) and Tech Mahindra ($460M), leading teams of 500 to 3,500 people. Dr. Chouhan has worked globally, consulting for multinational companies like Lufthansa, Motorola, Cisco, Nokia, Ericsson, Verizon, AT&T Wireless, and more. His work has extended to diverse sectors, including telecom, defense, and finance, working with entities such as the Defense Ministries of India and Turkey and the Finance Ministry of Sri Lanka. He has also published extensively in national and international journals and participated in numerous ICT and telecom conferences. A few key roles handled by Dr. Harish Chouhan were : Co-Founder, CoHan Consulting Vice President, Tech Mahindra Head of Object Technology Group, TATA Infotech Ltd (now TCS Limited) Head of Applied Technology Group, TATA Infotech Ltd (now TCS Limited) Consultant, Cranes Software Cofounder & Tech Head Krishna Bala B.SC., BANGALORE UNIVERSITY • BANGALORE, KARNATAKA ( 1983 - 1986) Seasoned RF Engineer and Project Manager with over 35+ years of diverse experience in the fields of Embedded systems, Wi-Fi, Telematics, and Cellular system design, Manufacturing, and Deployment. He is highly motivated professional with a proven track record of achievement and understanding of RF systems including but not limited to project management, aligning with customer program management & related teams of the product. Conversant with risk assessment & conformance testing of RF products to harmonized standards, liaising with certification labs for regulatory certifications and progress reporting to senior management. Experience in communicating complex technical topics to a wide variety of audience across the globe. Skills & Expertise: Extensive experience in end-to-end hardware design, validation, and manufacturing of Telematics control units, V2x platforms, and automotive connectivity systems. Expertise in regulatory compliance testing, risk assessment, and technical support for large-scale intelligent transport and telematics projects across multiple geographies. A few key responsibilities handled by Krishna Bala were: Country manager | LEAR INDIA ENGINEERING LLP - PUNE Deputy General Manager| LEAR AUTOMOTIVE INDIA PVT. LTD., (ARADA SYSTEMS INC., was acquired by LEAR CORPORATION in Nov 2015) - Bangalore, Karnataka Principal Hardware Architect & Engineering Head | INNOAIR TECHNOLOGIES (subsidiary of ARADA SYSTEMS INC., USA) - New Taipei City , Zhonghe Dist. - Taiwan Principal Hardware Architect | ARADA SYSTEMS PVT LTD., (subsidiary of ARADA SYSTEMS INC., USA) - Bangalore, Karnataka Independent Hardware Design Consultant | DAQPRO- Bangalore, Karnataka Cofounder & Business Head Raghavendra Saraf MDBA, Marketing 2003 - 2006, Symbiosis Gulbarga University, BE E & CE, 1993 - 1997 Raghavendra is an entrepreneur and business leader with strong start-up, wireless /Telecommunications, Power and Automotive domain experience. Have a strong engineering and Management background and have successfully been part of and founded startups in various disruptive industries from early basic telephony / cellular deployments(2G to 5G) to Bluetooth, Wi-Fi and Connected Vehicles (DSRC-CV2X))/VANET. More than 2 decades of experience in sales ,Marketing/Business Development, project management & Delivery, worked with Fortune 500 companies like Lear Corporation, TechM etc. he worked with leading OEM’s & IT solution providers with Senior leadership positions with Lear Corporation, Michigan, Arada Systems Inc, California, Benning, Germany (Jt. Venture with BSMC,India),Tech M etc..Stellapps Technologies (Digital IoT for Dairy firm) & start-up companies –Eagle AI Consulting/ Blueberry semiconductors. Built India business for Arada Systems Inc. California as Director –India Connectivity, for Wireless & Automotive Wireless business (Arada's Wi-Fi Enterprise (V2X) , that later on was acquired by NETGEAR (NASDAQ: NTGR), Arada's Automotive Business was acquired by LEAR CORPORATION (NYSE: LEA) in 2015, Lear Corporation). Built new IoT business with Dairy Industries, to offer digitization of the dairy supply chain solutions using AI | ML technology. Cofounder & Int. Business Head Kunal Sharma MSc. Electrical - Warsaw University Of Tech. , Poland ( 2022 - 2024 ) EMBA - UPES India Kunal is a seasoned techno sales professional driven by a relentless zeal for life long learning. He is having 17+ years of experience in sales, application and technical support to power utility customers all across the globe. He was recently granted his M.Sc. with final research thesis on "partial discharge measurement techniques" . Kunal is responsible for International sales and marketing of MIIT Initiative. He is also responsible for MIIT's technology tie-ups all across the globe. Skills & Expertise: 15+ years in international sales, marketing, brand building, company compliances, application & technical support etc. Expertise in being a bridge between the end customer and the design / R & D team leading to maximum customer satisfaction. A few key responsibilities handled by Kunal Sharma were: Founder & Tech Head | KPM Engineering Sol., India Founder & Director Technical| Green-Watt Techo Sol., India ASM-HV | Motwane, India Sales & Application Er. | Omicron Energy Sol., India (subsidiary of Omicron Electronics, Austria) Let’s Work Together Get in touch so we can start working together. First Name Last Name Email Message Send Thanks for submitting!

KPM Solutions |Clamp Earth & Tester ,Clamp Earth Tester (KPM-CEST1800) is widely applied in ground resistance measurement, loop resistance measurement, 3 point & 4 point measurement, voltage measurement & leakage current measurement in fields such as electric power, telecommunications, meteorology, oil field, architecture and industries . TOPRAKLAMA KELEPÇESİ TEST CİHAZI Kelepçeli Topraklama Test Cihazı (KPM-CET1200) is zemin direnci ölçümünde yaygın olarak uygulanır, loop elektrik_cc781905-5cde-3194-bb3cd5b-5b-136 gibi alanlarda direnç ölçümü , petrol sahası, architecture and endüstriyel elektrikli ekipman, etc. Döngü ile zemin sistemini ölçerken, hiçbir zemin bağlantısını kesme ihtiyacı yoktur yardımcı olmayan tel electrode, bu daha güvenli ve daha hızlı anlamına gelir. Kelepçe Topraklama Test Cihazı (KPM-CET1200) can ölçülemeyen topraklama hatasını ölçebilir bazı durumlarda uygulanabilir: yöntemler uygulanamaz; Clamp Earth Tester (KPM-CET1200) entegre_cc781905-5cde-3194-bb3b-136badcurr5cf58d_ölçer. Kelepçe Topraklama Test Cihazı (KPM-CET1200), eski modellerde başka bir mükemmel yükseltmedir. Clamp Topraklama Test Cihazının (KPM-CET1200) Temel Özellikleri Toprak direncini/döngü direncini ölçer Büyük çene ölçüsü (65mmx32mm) Geniş direnç ölçüm aralığı (0,01Ω ila 1200Ω) Geniş akım ölçüm aralığı (0,01A - 20A) Karşılıklı bağlı toprak çukuru devrelerini test etmek için ideal Sesli not Katalog

KPM brings you advance & powerful automatic relay test kits ideal for all type of relay testing applications.  Relay Tester ,Relay Test Set, Portable relay tester, Secondary Current Injection Test set, Current Injection Tester, Relay test Kit, Secondary Current Injection Kit, Secondary Injection Kit RÖLE TEST KİTİ ( KF86 ) Eşsiz Teklif: Yüksek Güç Değeri ve Yüksek Akım Derecesi Sayısal ve Statik Rölelerin testi için ideal Hafif ve Modern Tasarım (Yalnızca <10KG) Nümerik Röleleri test etmek için Son Teknoloji Yazılım (tüm gelişmiş özelliklere sahip) Üniversal Röle Test Kitinin (KF86) Donanım Özellikleri: Six her biri 65VA'da 0- 130V olan bağımsız AC gerilim kaynakları. Six bağımsız akım kaynakları of 0- 20A @ 90 VA . 0 ~ 300V/0.6A'lık bir bağımsız Yardımcı DC Kaynağı. >%0,05'lik yüksek doğruluklu analog çıkışlar. Sayısal ve Statik Rölelerin testi için uygun 9,7 inç gerçek renkli LCD, basit klavyeli dokunmatik ekran Üniversal Röle Test Kitinin (KF86) Yazılım Özellikleri: Mesafe, Diferansiyel, Aşırı Akım, Otomatik Tekrar Kapatma, Senkronizatör, Güç Salınımı, df/dt fonksiyonları vb.nin test edilmesi için özel modüllere sahip son derece gelişmiş yazılım. Düzenleme işlevli grafiksel test modülleri ve şablonları. İşaretle ve Tıkla testi Shot, Search & Check Test Seçeneği RIO/XRIO ithalat ve ihracat tesisi GPS senkronizasyonu uçtan uca testi Enerji Ölçer Testi , Dönüştürücü kalibrasyonu, V/I Measurement ve Geçici Kayıt Cihazı (İsteğe Bağlı). Sesli not Katalog - KF86 Kalite Sertifikaları CE İşareti LVD 2014/35/AB EN 61010-1-2010 EMC 2014/30/AB EN 61326-1: 2013 EN 61000-3-2:2014 EN 61000-3-3: 2013 Röle Teorisi Test Kiti Koruyucu röle, güç sistemi ekipmanlarının bakımını yapan ve sistemin korunmasını sağlamak için anormal bir durumda çıkış veren bir cihazdır. Koruyucu rölenin temel amacı, sistemin geri kalanının normal şekilde çalışması için bir güç sistemindeki arızalı bölümü mümkün olan en kısa sürede izole etmektir. Rölelerin güvenliğini, güvenilirliğini, kalitesini, hassasiyetini ve hızını tespit etmek gerekir. Bir rölenin arıza durumlarında dayanma kapasitesini kontrol etmek için Ulusal ve Uluslararası Standartlarda çeşitli testler önerilir. Test sırasında, performansını kontrol etmek için koruyucu röle simüle edilmiş saha koşullarına tabi tutulur. İlgili Ulusal / Uluslararası standartlar, rölelerin amaçlanan işlevini yerine getirme etkinliğini belirlemek için birçok test önermektedir. Aktarma ekipmanına bu görevde, güç koşullarını algılayan enstrüman transformatörleri ve aktarma ekipmanı tarafından çağrıldığında arızalı elemanın bağlantısını kesebilen devre kesiciler yardımcı olur. Güç sistemindeki kritik rolleri nedeniyle, güvenilir performans sağlamak için koruyucu röleler hizmete alınmadan önce ve sonrasında periyodik olarak kabul testine tabi tutulmalıdır. Normal bir endüstriyel uygulamada, IEC/IS Standardı . uyarınca en az 2 yılda bir periyodik testler yapılmalıdır. Röle Test Kiti – Teori Röle, anormal arıza koşullarında Devre Kesiciye açma komutu veren bir anahtarlama cihazıdır. Bir Röle CT'lerden/PT'lerden giriş sinyallerini alır ve programı uygulamaya göre arıza koşullarını hesaplar. Hatalı bir durum algıladığında Devre Kesiciye açma komutu verir. Aşama 1: Röle Test Kiti, test edilen Rölenin ilgili CT ve PT noktalarına I & V şeklinde hata enjekte eder. Röle Test Kitinin Zamanlayıcısı, fault enjeksiyonunu başlatarak başlar. Adım 2: Röle hatayı algılar ve açma komutunu verir, açma zamanlaması röle ayarlarının zaman özelliklerine bağlı olmalıdır. Aşama 3: Röle Test Kiti, Röleden açma komutunu alır ve zamanlayıcıyı durdurur. Adım 4: Ölçülen açma karakteristikleri, Mühendis tarafından yapılan ayarlara göre beklenen açmaya göre karşılaştırılır. Elektromekanik Röle Testi Akım trafosunun sekonderi, rölenin akım bobinine bağlanır. Gerilim trafosunun sekonderi rölenin gerilim bobinine bağlanır. Besleme devresinde herhangi bir arıza meydana geldiğinde, CT'nin orantılı sekonder akımı, o bobinin mmf'sinin artması nedeniyle rölenin akım bobininden akacaktır. Bu artan mmf, rölenin normalde açık kontağını mekanik olarak kapatmak için yeterlidir. Bu röle kontağı aslında DC açma bobin devresini kapatır ve tamamlar ve dolayısıyla açma bobinine enerji verilir. Açma bobininin mmf'si, devre kesicinin açma mekanizmasının mekanik hareketini başlatır ve sonuçta devre kesici, arızayı izole etmek için açılır.

KPM Solutions|We are electrical Test Equipment provider for high quality |HIPOT ( AC/DC/VLF) |https://www.kpmtek.com/hipot HİPOT ( AC/DC/VLF ) AC HİPOT KPM-AC serisi HIPOT'lar, tek HV transformatörü ve ana kontrol kutusundan oluşur. Yalıtım malzemesine göre üç tip HV trafosu vardır. Kuru YG transformatörü (Epoksi Reçine Yalıtımı) Yağ HV trafosu (İzolasyon Yağı) SF6 gazlı HV transformatörü (SF6 Gaz Yalıtımı) Model Özellikleri KPM-AC50/30 50kV @ 30mA – 22kg KPM-AC50/60 50kV @ 60mA – 33kg KPM-AC50/120 50kV @ 120mA – 53kg KPM-AC50/200 50kV @ 200mA – 79kg KPM-PIK/50/100 100kV @ 100mA – 98kg Katalog Katalog DC HİPOTU Bir kontrol ünitesi ve bir çift doğrultucu ünitesinden oluşur. KPM-DC serisi HIPOT'lar hafif, taşınabilir ve kullanımı kolaydır. Bu üniteler kullanıcı dostudur ve çıkışı yüksek voltajlarda bile kararlıdır Model Özellikleri KPM-DC60/10 60kV @ 10mA – 16kg KPM-DC120/10 120kV @ 10mA – 20kg KPM-DC200/10 200kV @ 10mA – 26kg KPM-DC300/10 300kV @ 10mA – 31kg VLF Hipot Test Cihazı Teknolojideki ilerleme, son derece düşük frekans, yani 0,1 Hz kullanmamıza izin veren benzersiz bir ekipmanı kapımıza getirdi. Bu nedenle, kablolar ve motorlar/jeneratörler gibi yüksek kapasitanslı yükleri AC gerilimle sahada test etmenin tek yolu bir VLF hipot test cihazı kullanmaktır. Frekans ne kadar düşük olursa, yüksek kapasitans yüklerini test etmek için o kadar az akım ve güç gerekir. VLF hipoting, iyi yalıtımı bozmaz ve DC voltaj testinde olduğu gibi erken arızalara yol açmaz. VLF kullanılması yalıtımın bozulmasına da neden olmaz. Bu nedenle, KPM size, tasarımdaki gerilim yükseltme gövdesi ile birlikte aşırı gerilim ve aşırı akım koruması sağlayan VLF Hipot Test Cihazını sunar ve bu, dışarıya bağlanan ek koruyucu direnç ihtiyacını ortadan kaldırır. Katalog

KPM Solutions|We are electrical Test Equipment & Epidemic Control solution, provider |CTTC |https://www.kpmtek.com/ctthermalcurrenttestdevice CT HEAT RUN TEST CİHAZI Katalog Sesli not Akım trafosu ısıtma test cihazı önce bağlı olduğu akım trafosu numune döngüsünün empedans değerini ölçer ve ardından empedans değeri ve set edilen test akım değerine göre cihazın çıkış akımını hedef test akım değerine otomatik olarak kontrol eder. 1s saat test süresi koşulunda, hesaplanan çıkış akımı ve yük, cihazın maksimum çıkışını aştığında, standart tarafından verilen I2t eşdeğer test yöntemine göre test akımı azaltılacak ve test süresi uzayacaktır. En uzun test süresi 5 saniye içinde kontrol edilir. Test işleminin primer devresine eklendiğinden emin olmak için numunenin I2t ve 1s ısıl akım darbe testinde sayısal olarak eşdeğerdir Özellikler Bağlı örnek akım trafosunun birincil döngü empedansını ölçün ve cihazın elektrik voltaj regülatörünü ölçülen empedans değerine göre hedef değere ayarlayın ve ardından yükseltici çıkış döngüsünde gerekli hedef test akımını oluşturun. Test sırasında örnek birincil döngü akımı, birincil döngü voltajı, cihaz regülatörü çıkış voltajı, cihaz regülatörü çıkış akımı vb. genlik-zaman eğrisini kaydedin. Test sırasında anormal ve hatalı işlemlere karşı koruma sağlamak için tüm test sürecini otomatik olarak kontrol edin ve izleyin. Biçim belirtimi için bir test raporu oluşturun. Teknik Detaylar Maksimum çıkış akımı 0~10000 A (daha büyük çıkış akımı özelleştirilebilir), çıkış akımı hatası ayarlanan değerin %10'undan azdır Cihaz çıkış kapasitesi 250KVA Örnek birincil döngü akım ölçümü 0~10000A, ölçüm hatası %0,1 FS Örnek birincil döngü voltajı ölçümü 0~30V, ölçüm hatası %0,1 FS Test işlemi voltajı ve akım dalga formu örnekleme oranı 25KHz, zaman ölçüm hatası 0,04ms Güç kaynağı AC380V45Hz~65Hz Çalışma ortamı sıcaklığı 0~50 derece, nem %90'dan az

KPM LA100+ is used for testing health of lightning arresters. It is also known as MOA Tester , Surge Arrester Tester/leakage current monitor/LCM etc. KPM LA100+ provides user key parameters such as Resistive Leakage Current ,3rd harmonic leakage current, Watt loss , watt loss angle etc PARATONER TEST CİHAZI ( LA / MOA ) KPM'nin 1 Fazlı Paratoner Test Cihazı(KPM LA-100 ) Paratonerlerin (LA/MOSA) elektriksel özelliklerini tespit etmek için kullanılacak özel alettir. KPM LA-100: Doğrudan LA Kaçak Akımından Ölçüm IEC'ye göre en güvenilir sonuçlar için doğrudan LA Kaçak Akımı ve Hat PT Geriliminden ölçüm. LA Kaçak Akımından ve Hat PT Geriliminden Ölçüm Ürün Özellikleri of Yıldırım Siperi Test Cihazı (KPM LA-100+) Geniş Ekran LCD Ekran, İngilizce kullanıcı menüsü, Kolay kullanım. Güvenilir veriler elde etmek için Hassas Örnekleme ve Fourier harmonik analiz tekniklerini kullanın. 3. Harmonik Direnç Akımını Ölçer , Toplam Direnç Akımı , Toplam Kaçak Akım ,_cc781905-5cde-3194-bb3b-136bad5-Vcf58 Şarj edilebilir pil, takvim saati, Dahili mikro yazıcı, 120 grup ölçüm verisi saklayabilir Sesli not Katalog Sesli not Katalog KPM's 3 Fazlı Paratoner Test Cihazı(KPM LA-103+) Paratonerlerin (LA/MOSA) elektriksel özelliklerini tespit etmek için kullanılacak özel alettir. KPM LA-103+ is capable, IEC uyarınca altı ana yöntem kullanılarak çevrimiçi olarak test edilebilir LA -: 1. Geniş ekranlı LCD ekran, tam İngilizce menü işlemi, kullanımı kolay. 2 Verileri güvenilir hale getirmek için yüksek hassasiyetli örnekleme ve işleme devreleri, gelişmiş Fourier harmonik analiz teknikleri kullanma. 3. Cihaz, verilerin güvenilirliğini ve güvenliğini sağlamak için benzersiz bir yüksek hızlı manyetik izolasyon dijital sensörü tarafından doğrudan yakalanan ve girilen voltaj ve akım sinyallerini kullanır. 4. Bu ekipman, PT ikincil kablolama yerine indüklenmiş elektrik alanı veya kablosuz iletim yöntemini kullanabilir. 5. Cihazın PT sekonderini bağlamasına gerek yoktur ve dirençli akımı doğrudan ölçebilir. 6. Sahadaki kişi için birçok seçenek sunan altı test yöntemi vardır.( PT ikincil yöntem, indüksiyon yöntemi, kablosuz iletim yöntemi, tek bir akım senkronizasyon yöntemi, pt ikincil senkronizasyon yöntemi) Anchor 1

KPM MDH 8006 ,  High-Voltage Lithium Battery Discharger is designed for the rapid discharge requirements of high-voltage lithium battery packs, the discharge voltage can reach 800V. It is equipped with a CAN data bus, which can read battery cell data during discharge. It is an ideal device for battery manufacturers and automobile assembly plants to quickly discharge battery packs during storage, transportation, repair and battery recycling. 800V Akü Boşaltma Kiti ( MDH Serisi ) genel bakış KPM MDH 8006 , Yüksek Voltajlı Lityum Batarya Boşaltıcı, yüksek voltajlı lityum batarya paketlerinin hızlı deşarj gereksinimleri için tasarlanmıştır, deşarj voltajı 800V'a ulaşabilir. Deşarj sırasında pil hücresi verilerini okuyabilen bir CAN veri yolu ile donatılmıştır. Pil üreticileri ve otomobil montaj fabrikaları için depolama, taşıma, onarım ve pil geri dönüşümü sırasında pil takımlarını hızlı bir şekilde boşaltmak için ideal bir cihazdır. Başvuru Pil Üreticileri ve Otomobil Montaj Tesisleri: depolama, nakliye, onarım ve pil geri dönüşümü Fonksiyonel Özellikler Özellik Yüksek Voltajlı Deşarj: maksimum deşarj voltajı 800V'a ulaşabilir ve çeşitli yüksek voltajlı lityum pil paketlerinin deşarj gereksinimlerini karşılar Hücre Verisi Toplama: CAN veri yolu ile hücre verileri deşarj sırasında okunabilir Çoklu Korumalar: aşırı deşarj, aşırı sıcaklık, aşırı akım, ters polarite korumasını destekler Sesli not Katalog

KPM CRT Series are robust & accurate range of contact resistance testers used for checking healthiness of bonding resistance , circuit breaker contacts etc. |Contact Resistace Tester |https://www.kpmtek.com/crt KONTAK DİRENÇ ÖLÇER Kontak Direnci Test Cihazı (KPM CRT) outputs DC devre kesici veya yüksek akım kablosu kontak direncini test etmek için Per IEC62271 olarak tasarlanmıştır. Esas olarak devre kesici kontak direncini ölçer. Test cihazının tüm test sonuçları, test cihazına entegre edilmiş mikro yazıcı tarafından yazdırılabilir. Ayrıca, test cihazında kaydedilen tüm test sonuçları the bilgisayarına yüklenebilir ve ardından MS WORD belgesi olarak kaydedilebilir. Ürün Özellikleri: Temas direnci ölçümü Sonuç baskısı Veriyi bilgisayara yüklemek Contact Direnç Test Cihazının (KPM CRT) Temel Noktaları 600A'e kadar yüksek DC akımı Milvolt gerilimi drop ölçüm. Basit Kullanım Gürültü Girişimi Reddi Yüksek güç kaynakları sayesinde hızlı ve kararlı sonuçlar 100 sonuç hafızalı dahili yazıcı bilgisayar bağlantısı Otomatik test modu KPM- CRT Serisi aşağıdaki varyantlarda mevcuttur-: 100A 200A 400A 600A Sesli not Katalog