Starting from analyzing the general principle of typical bandgap reference circuit, the design of a CMOS bandgap reference circuit with adjustable output is discussed.
从分析典型的能隙基准电路的一般原理入手,重点讨论了一种输出可调节的CMOS能隙基准电路的设计。
The paper introduces the design method of adjustable DC reference based on PWM and time-division, it gives hardware and software design.
介绍了利用脉冲调宽时分割技术设计的可调直流基准源的原理和方法,并给出了硬件电路和程序设计。
Analysis result shows that the reference signal can be highly precise and provide an adjustable performance if the given frequency of crystal is high enough.
通过分析可知,只要晶振频率足够高,生成的基准信号就有足够高的精度,而且信号的参量具有良好的可调节性。
U1A compares an adjustable sample of the present battery voltage to a 5V reference from a highly stable source.
一个5V参考比较目前电池电压可调的样品从一个高度稳定的收入来源。
Adjustable Precision Micropower Shunt Voltage Reference, 0.5% accuracy.
可调节精密微功耗并联电压参考,0.5%精确度。
Adjustable Precision Micropower Shunt Voltage Reference, 0.2% accuracy.
可调节精密微功耗并联电压参考,0.2%精确度。
Adjustable Precision Micropower Shunt Voltage Reference, 1.0% accuracy.
可调节精密微功耗并联电压参考,1.0%精确度。
Adjustable Precision Micropower Shunt Voltage Reference, 1.0% accuracy.
可调节精密微功耗并联电压参考,1.0%精确度。
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