描述
ABB 5SNA 060065G0122产品详情
5SNA 060065G0122是ABB集团生产的一款高压绝缘栅双极型晶体管(IGBT)模块,属于半导体功率器件领域,主要用于工业驱动、电力电子、可再生能源等高压、大电流应用场景。以下是详细的产品解析:
一、产品定位与核心作用
定位
**5SNA 060065G0122是ABB高压IGBT模块系列中的标准型产品,采用第4代IGBT芯片技术,结合低损耗、高可靠性设计,适用于中高压(如3.3kV、4.16kV、6kV)变频器、SVG(静止无功发生器)、中压传动系统等场景。
设计特点:针对工业环境中的高电压、大电流、频繁开关需求优化,具备低导通损耗、低开关损耗、高短路耐受能力等特性。
典型应用场景
工业驱动:如轧钢机、矿井提升机、水泥球磨机、油气输送泵等中高压电机驱动系统。
电力电子:如高压直流输电(HVDC)、柔性交流输电(FACTS)、电能质量治理设备(SVG、APF)。
可再生能源:如风力发电变流器、光伏逆变器(中压并网)。
核心作用
功率转换:将直流电(DC)转换为交流电(AC)(逆变),或交流电转换为直流电(整流),实现电机调速、电网功率调节。
高效节能:通过低损耗设计,减少开关过程中的能量损耗,提升系统整体效率(如变频器效率提升2%~3%)。
系统保护:内置过温、过压、过流保护电路,防止器件损坏或系统故障,延长设备寿命。
二、技术规格与性能参数
1.电气参数
额定电压(V_CES):6500V(典型值,适用于6kV系统)。
额定电流(I_C):600A(壳温80℃时的连续导通电流)。
短路耐受时间(T_sc):≥10μs(符合IEC 60747-9标准,可承受10倍额定电流的短路冲击)。
开关频率:1kHz~10kHz(典型值,根据散热条件调整)。
导通压降(V_CE(sat)):≤3.5V( I_C=600A,T_j=125℃),低导通损耗设计。
开关损耗(E_on+E_off):≤15mJ( V_CC=3300V,I_C=600A,T_j=125℃),降低高频开关损耗。
2.机械结构
封装形式****:压接式(Press-Pack),采用无引线、无焊接连接,通过弹簧压力实现电气与热接触,具备高抗震性、低热阻特性。
外壳材料:高导热铝合金(6061-T6),表面阳极氧化处理,耐腐蚀性符合IEC 60529 IP65标准。
尺寸(长×宽×高):约200mm×150mm×50mm(具体以ABB官方数据为准),紧凑设计节省安装空间。
重量:约5kg(含内部芯片、散热基板等)。
3.热性能
热阻(R_th(j-c)):≤0.05K/W(芯片到外壳的热阻,低热阻设计提升散热效率)。
最高结温(T_jmax):150℃(短期过载可承受175℃,但需降额使用)。
冷却方式:水冷或强制风冷,推荐水冷散热(流速≥3L/min,水温≤40℃)以实现600A连续电流运行。
4.保护功能
过温保护:内置NTC热敏电阻,监测芯片温度,超温时触发驱动电路关断。
过压保护:通过RC缓冲电路抑制关断电压尖峰,防止器件击穿。
过流保护:与驱动板配合,实现快速短路检测与关断(响应时间≤1μs)。
ABB 5SNA 060065G0122 Product Details
The 5SNA 060065G0122 is a high-voltage insulated-gate bipolar transistor(IGBT)module manufactured by ABB.It belongs to the semiconductor power device category and is primarily used in high-voltage,high-current applications such as industrial drives,power electronics,and renewable energy.The following is a detailed product overview:
I.Product Positioning and Core Function
Positioning
**The 5SNA 060065G0122 is a standard product in ABB’s high-voltage IGBT module series.Utilizing 4th-generation IGBT chip technology and combining low-loss,high-reliability design,it is suitable for medium-and high-voltage(e.g.,3.3kV,4.16kV,6kV)inverters,SVGs(static var generators),and medium-voltage transmission systems.
Design Features:Optimized for the high voltage,high current,and frequent switching requirements of industrial environments,it features low conduction losses,low switching losses,and high short-circuit withstand capability.
Typical Application Scenarios
Industrial drives:such as rolling mills,mine hoists,cement ball mills,oil and gas pumps,and other medium-and high-voltage motor drive systems.
Power electronics:such as high-voltage direct current(HVDC),flexible alternating current transmission(FACTS),and power quality management equipment(SVG,APF).
Renewable energy:such as wind turbine converters and photovoltaic inverters(medium-voltage grid-connected).
Core Functions
Power conversion:Converts direct current(DC)to alternating current(AC)(inversion),or vice versa(rectification),enabling motor speed regulation and grid power regulation.
Energy efficiency:A low-loss design reduces energy loss during switching,improving overall system efficiency(e.g.,inverter efficiency increases by 2%-3%).
System protection:Built-in over-temperature,over-voltage,and over-current protection circuits prevent component damage and system failure,extending equipment life.II.Technical Specifications and Performance Parameters
1.Electrical Parameters
Rated voltage(V_CES):6500V(typical,applicable to 6kV systems).
Rated current(I_C):600A(continuous conduction current at a case temperature of 80°C).
Short-circuit withstand time(T_sc):≥10μs(complies with IEC 60747-9 standard,can withstand short-circuit surges of 10 times the rated current).
Switching frequency:1kHz~10kHz(typical,adjusted based on heat dissipation conditions).
On-state voltage drop(V_CE(sat)):≤3.5V( I_C=600A,T_j=125°C),low conduction loss design.
Switching loss(E_on+E_off):≤15mJ( V_CC=3300V,I_C=600A,T_j=125°C),reducing high-frequency switching losses.2.Mechanical Structure
Package:Press-Pack,featuring leadless,solderless connections.Electrical and thermal contact is achieved through spring pressure,resulting in high vibration resistance and low thermal resistance.
Case Material:High-thermal-conductivity aluminum alloy(6061-T6),anodized surface,corrosion resistance meets IEC 60529 IP65 standards.
Dimensions(L×W×H):Approximately 200 mm×150 mm×50 mm(specific details subject to ABB official data).Compact design saves installation space.
Weight:Approximately 5 kg(including internal chip,heat sink,etc.).
3.Thermal Performance
Thermal Resistance(R_th(j-c)):≤0.05 K/W(chip-to-case thermal resistance).Low thermal resistance design improves heat dissipation efficiency.
Maximum Junction Temperature(T_jmax):150°C(can withstand short-term overload conditions up to 175°C with derating).Cooling Method:Water cooling or forced air cooling.Water cooling is recommended(flow rate≥3L/min,water temperature≤40°C)to achieve 600A continuous current operation.
4.Protection Functions
Overtemperature Protection:A built-in NTC thermistor monitors chip temperature and triggers driver circuit shutdown when overtemperature occurs.
Overvoltage Protection:An RC snubber circuit suppresses shutdown voltage spikes to prevent device breakdown.
Overcurrent Protection:Works with the driver board to achieve rapid short-circuit detection and shutdown(response time≤1μs).
ABB Model: GBU72 3BHE055094R0002 Model: 3BHE055094R0002 GBU72 Model: GBU72 Model: 3BHE055094R0002 Model: 3BHE031197R0001 Model: 3BHB030310R0001 Model: 73BHE055094R0002 GBU72 Model: 73BHE055094R0002 Model: GBU72 Model: ABB PCS6000 PRODUCT FAMLIY ABB 5SHY4045L0006 3BHB030310R0001 3BHE039203R0101 GVC736CE101
