通道晶体管增强调节的输出电流-Pass Transistor
abstract: a 5v linear regulator with external pass transistor (which provides an additional, parallel path for load current) delivers twice as much output current (150ma to 300ma) while maintaining 5v regulation.
in figure 1, the 5v linear regulator (u1) delivers as much as 150ma of load current when operating by itself. operating with the external pass transistor shown (q1), the circuit maintains 5v regulation while delivering more than 300ma.
figure 1. an external pass transistor (q1) more than doubles the output-current capability of this 5v linear regulator (u1). the circuit accepts normal operating voltages in the range 9v to 14v, and delivers up to 300ma of load current at 5v. it withstands input transients to 65v, thanks to the ic's high input-voltage rating and internal thermal protection. a wide input-voltage range (6.5v to 65v) and temperature range of -40°c to +125°c make the circuit suitable for 12v and 48v automotive applications. the external pass transistor increases the available load current by creating an additional path from input to output. the path in this case was designed for an additional 150ma, but you can obtain larger output currents by substituting other components in the circuit. to understand how the external transistor allows greater load currents, imagine the circuit with no output current. in that case the voltages at in and the emitter of q1 are approximately equal to vcc. q1's base-emitter voltage is zero and the transistor is off. as load current slowly increases from zero to 300ma, current begins to flow through u1 from vcc to out, causing a voltage drop across r3 and d3. the same voltage drop appears across r1 and the vbe of q1. vbe increases as the load current increases. as vbe approaches the threshold of q1, the transistor gradually turns on and allows current flow from the input to the load. q1's vbe threshold is approximately 0.7v at room temperature, and decreases at higher temperatures to about 0.3v. the transistor shown (tip32b) is chosen for its power-dissipation capability and high collector-to-emitter voltage (-80v). the to-220 package allows several watts of power dissipation, and the -80v collector-to-emitter voltage allows operation (with u1) in applications featuring input voltages as high as 65v. as illustrated by figures 2-3, the circuit is stable in the presence of load and line transients.
figure 2. load transient (top trace) for the figure 1 circuit.
figure 3. line transient (top trace) for the figure 1 circuit. this design idea appeared in the august 16, 2004 issue of ee times magazine.
小米6最新消息:小米6即将发布,超高成本打造指纹识别,小米6指纹识别方案曝光!与华为p10同款
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in figure 1, the 5v linear regulator (u1) delivers as much as 150ma of load current when operating by itself. operating with the external pass transistor shown (q1), the circuit maintains 5v regulation while delivering more than 300ma.
figure 1. an external pass transistor (q1) more than doubles the output-current capability of this 5v linear regulator (u1). the circuit accepts normal operating voltages in the range 9v to 14v, and delivers up to 300ma of load current at 5v. it withstands input transients to 65v, thanks to the ic's high input-voltage rating and internal thermal protection. a wide input-voltage range (6.5v to 65v) and temperature range of -40°c to +125°c make the circuit suitable for 12v and 48v automotive applications. the external pass transistor increases the available load current by creating an additional path from input to output. the path in this case was designed for an additional 150ma, but you can obtain larger output currents by substituting other components in the circuit. to understand how the external transistor allows greater load currents, imagine the circuit with no output current. in that case the voltages at in and the emitter of q1 are approximately equal to vcc. q1's base-emitter voltage is zero and the transistor is off. as load current slowly increases from zero to 300ma, current begins to flow through u1 from vcc to out, causing a voltage drop across r3 and d3. the same voltage drop appears across r1 and the vbe of q1. vbe increases as the load current increases. as vbe approaches the threshold of q1, the transistor gradually turns on and allows current flow from the input to the load. q1's vbe threshold is approximately 0.7v at room temperature, and decreases at higher temperatures to about 0.3v. the transistor shown (tip32b) is chosen for its power-dissipation capability and high collector-to-emitter voltage (-80v). the to-220 package allows several watts of power dissipation, and the -80v collector-to-emitter voltage allows operation (with u1) in applications featuring input voltages as high as 65v. as illustrated by figures 2-3, the circuit is stable in the presence of load and line transients.
figure 2. load transient (top trace) for the figure 1 circuit.
figure 3. line transient (top trace) for the figure 1 circuit. this design idea appeared in the august 16, 2004 issue of ee times magazine.
小米6最新消息:小米6即将发布,超高成本打造指纹识别,小米6指纹识别方案曝光!与华为p10同款
CNT Networks四大技术专题活动,闪耀80届中国电子展
电压基准源电路设计 TL431典型应用电路
家里都有集体供暖了,为何还要选择石墨烯地暖
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通道晶体管增强调节的输出电流-Pass Transistor
变压器磁心的选取与绕制
双电源自动转换开关(ATSE)的发展
人工智能的未来是开放的
智能家居推动楼宇对讲扩展性发展 进一步向更多领域渗透
库克谈增强现实技术:它像智能手机一样棒
虹科工业树莓派应用小技巧
美国的新能源“棋盘”电池巨头的“狙击”策略
恒大全面接管FF中国 恒大回应停发60余名FF中国员工工资
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