KP-1240S High Voltage Current Carrying Test System ( ISO 27186:2020 Annex E)
The KP-1240S High Voltage Current Carrying Test System is a specialized test instrument designed to generate high-intensity pulse currents simulating defibrillation shocks for active implantable medical devices. This system is designed and manufactured in accordance with the requirements of Annex E (normative) in ISO 27186:2020 โ Active implantable medical devices โ Four-pole connector system for implantable cardiac rhythm management devices โ Dimensions and test requirements
MOQ: 1
Price: To be quoted
Standard Packaging: 300*400*1500mm
Delivery Period: 15day
Payment Method: T/T
Supply Capacity: 100
High Voltage Current Carrying Test System Product Overview
Compliant with ISO 27186:2020 Annex E โ High-Voltage Current-Carrying Test Solution
The KingPo KP-1240S High Voltage Current Carrying Test System is a precision-engineered test instrument designed specifically for evaluating the robustness of four-pole connector systems used in active implantable medical devices. It generates high-intensity pulse currents that accurately simulate external defibrillator shocks, enabling reliable assessment of connector performance and safety under extreme electrical stress conditions.
This system fully complies with the requirements of ISO 27186:2020 Annex E (normative annex) for high-voltage current-carrying tests on DF-4 (high-voltage) and IS-4 connector configurations. It verifies that, after exposure to simulated defibrillation pulses, the connector exhibits no irreversible damage and that pulse generator parameters can be fully restored through reprogramming โ ensuring long-term reliability and patient safety in life-critical implantable cardiac rhythm management devices such as pacemakers and implantable cardioverter defibrillators (ICDs).
Key Features and Safety Design of KP-1240S
The KP-1240S High Voltage Current Carrying Test System incorporates multiple layers of protection and usability enhancements:
- Advanced Waveform Control: Digital precision adjustment of voltage, current, duration, and sequence parameters ensures excellent test repeatability.
- Comprehensive Safety Mechanisms: >10 kV isolation between high-voltage output and control circuits, automatic residual energy discharge post-pulse, overload/short-circuit protection, and emergency stop functionality.
- User-Friendly Interface: Intuitive touchscreen operation with Chinese/English support, pre-programmed test modes, and real-time waveform monitoring.
- Data Acquisition and Reporting: Built-in high-speed capture, storage, and USB/PC export capabilities for generating professional test reports and audit trails.
- Compatibility: Includes basic high-voltage fixtures; optional custom adapters for IS-4/DF-4 connectors ensure seamless integration into existing test setups.
Operating under standard laboratory conditions (10โ40ยฐC, <80% humidity), the system consumes <500 W from a 220V AC supply, making it efficient and practical for R&D labs, quality assurance departments, and third-party certification bodies.
KP-1230S Dielectric Strength Tester Compliant with ISO 27186:2020 Annex C
Technical Specifications
Waveform Characteristics
- Waveform type: Monophasic truncated exponential waveform
- Rise time: < 10 ยตs
- Pulse duration: 10โ20 ms (adjustable, default 18 ms truncation)
- Polarity: Selectable positive or negative (automatic or manual)
Voltage & Current
- Output voltage range: 0โ2 kV (peak up to 1.53 kV)
- Peak voltage accuracy: ยฑ1%
- Peak current: โฅ 50 A (under 100 ฮฉ standard load)
- Current measurement accuracy: ยฑ2%
Energy & Load
- Delivered energy: โ 200 J
- Load simulation: Integrated 50โ100 ฮฉ resistive loads to mimic physiological body impedance
Test Repetition & Control
- Pulse repetition rate: 1โ10 pulses per minute
- Timing accuracy: ยฑ0.5%
- Supports continuous sequences of 5โ10 pulses (per standard protocol)
Electrical & Environmental
- Power supply: 220 V AC ยฑ10%, 50/60 Hz, power consumption < 500 W
- Operating environment: 10โ40 ยฐC, relative humidity < 80% (non-condensing)
Safety Features
-
10 kV isolation between high-voltage output and control circuitry
- Automatic discharge of residual energy after each pulse
- Overload, short-circuit, and emergency stop protection
- High-voltage output safety connector design
Request Your Exclusive KP-1240S Quote Now โ Ensure Fast Compliance with ISO 27186:2020
Request Your Exclusive KP-1240S Quote Now โ Ensure Fast Compliance with ISO 27186:2020
High Voltage Current Carrying Test System Typical Applications
- High-voltage defibrillation withstand testing of four-pole connectors in implantable cardiac pacemakers
- Safety validation of connector systems in implantable cardioverter defibrillators (ICDs)
- High-voltage current-carrying capacity evaluation for IS-4 and DF-4 quadripolar connectors
- Design verification and reliability testing during medical device R&D
- Third-party testing laboratories and certification bodies
- Generation of test data required for CE marking, FDA registration, NMPA (China) domestic registration, and other global market approvals
Main Application Scenarios
- Defibrillation shock withstand testing for four-pole connectors in implantable cardiac pacemakers
- Safety evaluation of connector systems in ICDs (Implantable Cardioverter Defibrillators)
- Compliance verification with the international standard ISO 27186:2020
- Support for medical device registration and certification testing
Additional Features
- High-precision waveform control: Digital adjustment of voltage, current, and duration for excellent repeatability
- Safety protection mechanisms: Overload protection, short-circuit protection, and emergency stop function
- Data recording: Built-in waveform acquisition and storage for easy test report generation
- User interface: Touchscreen control with multi-language support (Chinese/English)
Why Choose the KP-1240S High Voltage Current Carrying Test System?
In today’s increasingly globalized medical device industry, test equipment compliant with the latest ISO 27186:2020 standard has become essential for connector testing in implantable cardiac devices. The KP-1240S not only retains compatibility with YY/T 0972-2016 but has been fully upgraded to the 2020 international standard, helping companies efficiently meet CE marking, FDA approval, and other global registration requirements.
If you are conducting defibrillation withstand testing for implantable pacemaker or ICD connectors, the KP-1240S is your reliable choice, ensuring product safety and market competitiveness.
Keywords: High Voltage Current Carrying Test System, ISO 27186:2020, Four-Pole Connector Testing, Implantable Cardiac Pacemaker Testing, Defibrillation Pulse Simulation, Medical Device Testing Equipment, DF-4 Connector Withstand Testing
Contact us for more technical details or a quotation!
Compliance & Certification Value
The KP-1240S fully meets all requirements of ISO 27186:2020 Annex E for high-voltage pulse withstand testing of four-pole connectors. It provides traceable, repeatable, high-accuracy test results that support risk management documentation, design validation reports, and post-market surveillance obligations.
Whether you are a medical device manufacturer striving for the highest international safety standards or a specialized testing laboratory focused on implantable cardiac rhythm management devices, the KP-1240S delivers a dependable, future-proof testing solution. It ensures electrical integrity and reprogrammability under extreme defibrillation conditions, helping you achieve faster regulatory clearance and stronger competitive advantage in global markets.
KP-1240S High Voltage Current Carrying Test
KP-1240S High Voltage Current Carrying Test System FAQs
Related Products
Related News
Understanding the ESU Analyzer: A Comprehensive Guide In the world of medical equipment, precision and safety are paramount. One device […]
NE Contact Impedance Tester for Contact Resistance Accuracy NE Contact Impedance Tester In the world of electrical testing equipment, the […]
External defibrillators are performanceโcritical devices. For thirdโparty calibration and certification laboratoriesโand for manufacturersโ QA/production teamsโthe โmake or breakโ is whether […]
1000 Hz as Reference Signal According to ITU-R 468-4 (Measurement of audio noise levels in sound broadcasting), the frequency response […]
The 83rd International Electrotechnical Commission (IEC) General Assembly, held in Shanghai, China from October 14 to 25, 2019, marked a […]
Understanding IP Ratings: Complete Guide to Protection Levels In todayโs world, protecting electronics, industrial equipment, or polyurethane coated gloves from […]
