Table of Contents
Code and Implication of the Intellect Integration Power Capacitor
Intrudcution to the Integration Power Capacitor
ZHIMING brand of ZMZ-C series intellect integration power capacitor is a new reactive compensation equipment. Integration Power Capacitor is a high-performance energy component designed for modern power systems. It offers low ESR, high power density, and excellent thermal stability, ensuring efficient energy delivery and reduced ripple in high-speed electronic circuits. Ideal for applications in industrial equipment, renewable energy systems, and advanced power modules.
Features of the Integration Power Capacitor
Intelligent Measuring and Control System
The sampling system of current and voltage adopts a 32-bit built-in MCU made by Corex-M4, able to collect the signals quickly, and it can realize the high accuracy of measuring three-phase current, voltages, active power, reactive power, transparent power and etc system parameters, calculating and analyzing harmonic waves.
Human and Machine Exchange System
The displaying monitor adopts an LCD panel, a Chinese menu, displays the inner temperature, current, voltage, and harmonic parameters in real time, push keys to seek the parameters and running status, also able to set over-voltage, under-voltage, under-current, over-temperature, and over/under compensation data, which can be saved in case of power failure.
Intelligent Connecting with the System
Rs485 comm port, built-in MODBUS-RTU protocol, able to realize remote monitoring and controlling. When several products are connected with the system in parallel, they will automatically produce one master machine, the others become the slave machines, forming a reactive power compensation system; if one of machines is out o service it does not influence on others operation, if the master machine exit the working, the system will auto produce anew master machine, highly intelligent operation.
Intelligent Switching System
Really switching through zero current, auxiliary transistor circuit is not needed, this system adopts the n-dependent CPU to control the switching operation at passing zero, switching at zero, no surging current, no arcing, fast response, improves the reliability and service life of the equipment
High-performance Power Capacitors
Cooperated with high-performance power capacitors, good radiation, small size, and long service life; consequently, it can ensure the complete set of equipment with high safety and reliability.
Technical parameters of the Integration Power Capacitor
| Power Parameters | Rated voltage | AC 400V(deviation≤±10%,distortion sine wave <5%) | ||
| Rated current | AC0~5A(current harmonics<10%,Current input impedance≤0.02 Ω) | |||
| Frequency | 50Hz | Power consumption | <0.5W | |
| Measurement accuracy | Voltage | ≤0.5% | Current | ≤0.5% |
| Power | ≤0.5% | Power Factor | ±0.01% | |
| Time | ≤100ms | Temperature | ±1℃ | |
| Network | Networking Number | ≤128 STEPS | Networking initialization time | ≤10s |
| Environment | Temperature | -30~+60℃ | ||
| Relative humidity | 90%RH(when 20℃ non-condensing) | |||
| Switching interval | Single ≥20s(increased when more than one network use) | |||
| Capacitors single maximum capacity | Three-phase compensation(30+30kVar; single-phase compensation 30kVar | |||
| Capacitors decay rate | ≤0.5%/YEAR | |||
| Capacitor failure rate | ≤5%/年(Operation 60000h) | |||
| Allows switching frequency | ≥100 Ten thousand times | |||
| Communication Interface | RS 485,CAN | |||
Product Size of the Integration Power Capacitor
Main technical data & outline dimensions data
Note: Other special specification models are supplied according to user requirements
| Compensation model | Model Specification | Dimensions (mm) | |||
| L | L1 | W | H | ||
| Three-phase compensation (Single) | ZMZ-CS0.45(5) | 383 | 350 | 85 | 230 |
| ZMZ-CS0.45(10) | 383 | 350 | 85 | 230 | |
| ZMZ-CS0.45(15) | 383 | 350 | 85 | 230 | |
| ZMZ-CS0.45(20) | 383 | 350.0 | 85 | 230 | |
| ZMZ-CS0.45(25) | 383 | 350 | 85 | 290 | |
| ZMZ-CS0.45(30) | 383 | 350 | 85 | 290 | |
| Three-phase compensation (Dual) | ZMZ-CS0.45(5+5) | 383 | 350 | 85 | 230 |
| ZMZ-CS0.45(10+5) | 383 | 350 | 85 | 230 | |
| ZMZ-CS0.45(10+10) | 383 | 350 | 85 | 230 | |
| ZMZ-CS0.45(15+10) | 383 | 350 | 85 | 290 | |
| ZMZ-CS0.45(15+15) | 383 | 350 | 85 | 290 | |
| ZMZ-CS0.45(20+15) | 383 | 350 | 85 | 290 | |
| ZMZ-CS0.45(20+20) | 383 | 350.0 | 85 | 290 | |
| Single-phase compensation | ZMZ-DF0.25(10) | 383 | 350 | 85 | 230 |
| ZMZ-DF0.25(15) | 383 | 350 | 85 | 290 | |
| ZMZ-DF0.25(20) | 383 | 350 | 85 | 290 | |
| ZMZ-DF0.25(30) | 383 | 350 | 85 | 330 | |
| Mixed compensation | ZMZ-CH/450/5+250/5 | 383 | 350 | 85 | 230 |
| ZMZ-CH/450/10+250/5 | 383 | 350 | 85 | 230 | |
| ZMZ-CH/450/10+250/10 | 383 | 350 | 85 | 290 | |
| ZMZ-CH/450/15+250/15 | 383 | 350 | 85 | 290 | |
Wiring Diagram of the Integration Power Capacitor
Wiring diagram of a three-phase compensated
Wiring diagram of the respective compensation and mixed model
