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Bandgap voltage reference circuit with start-up circuit

A voltage reference and start-up circuit technology, applied in the direction of adjusting electrical variables, control/regulation systems, instruments, etc., can solve the problem that bipolar transistors Q21 and Q22 cannot be turned on, devices cannot be started, and the bandgap voltage reference circuit 20 cannot work normally, etc. question

Inactive Publication Date: 2011-06-22
SAMSUNG SEMICON CHINA RES & DEV +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0032] However, in figure 2 In the bandgap reference voltage circuit 20, since the branch where the bipolar transistors Q21 and Q22 are located is connected in parallel with resistors, there may also be such a state that when the PMOS transistors M21 and M22 as current sources start to provide current and operation When the amplifier OP2 can work, the voltage at the nodes A and B cannot turn on the bipolar transistors Q21 and Q22
Because there are resistors R23 and R24 connected in parallel on the branches with Q21 and Q22, the current will all flow through the resistors R23 and R24, and if the start-up circuit is closed at this time, the entire bandgap reference voltage circuit 20 will maintain this state, thus Bandgap voltage reference circuit 20 not working properly
Therefore, when a resistor is connected in parallel to the branch of the device with positive and negative temperature coefficients in the bandgap voltage reference circuit, a circuit structure is needed to solve the problem that the device cannot be started

Method used

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  • Bandgap voltage reference circuit with start-up circuit
  • Bandgap voltage reference circuit with start-up circuit
  • Bandgap voltage reference circuit with start-up circuit

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Embodiment Construction

[0051] Embodiments of the present invention will be described in detail below in conjunction with the accompanying drawings. image 3 A bandgap voltage reference circuit 30 according to an embodiment of the invention is shown. The bandgap voltage reference circuit 30 includes: bipolar transistors Q31 and Q32; resistors R31, R32, R33, R34, R33' and R34'; PMOS transistors M31, M32 and M33, an operational amplifier OP31 and a startup circuit 31.

[0052] Two bipolar transistors Q31 and Q32 (corresponding to figure 2 The base and collector of Q21 and Q22) are grounded. The emitter of the bipolar transistor Q31 is connected to the node A, and the emitter of the bipolar transistor Q32 is connected to the node B through the resistor R31. The positive and negative input ends of the operational amplifier OP31 are respectively connected between R34 and R34' and between resistors R33 and R33'. The output terminal of the operational amplifier OP31 is connected to the startup circuit 3...

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Abstract

The invention discloses a bandgap voltage reference circuit with a start-up circuit. In the start-up circuit, a comparator is used for comparing a resistance value of a first resistor which is connected with the bandgap voltage reference circuit in series and has positive and negative temperature coefficients and the voltage drop on a second resistor the same as the first resistor, so that when the voltage drop is the same, the current of a first P-channel metal oxide semiconductor (PMOS) tube of the current source of the device is increased, and the problem that the device cannot be opened is solved. In addition, the start-up circuit also can eliminate the zero state of the bandgap voltage reference circuit, and can automatically be closed when the bandgap voltage reference circuit normally works so as not to influence the normal work of the bandgap voltage reference circuit.

Description

technical field [0001] The invention relates to a bandgap voltage reference circuit. More particularly, it relates to a bandgap voltage reference circuit with a start-up circuit. Background technique [0002] Bandgap voltage reference circuits are widely used in storage circuits, analog-to-digital conversion circuits and power management circuits, and their function is to generate a constant voltage value that does not vary with temperature, process and voltage. The bandgap voltage reference circuit usually uses devices with positive temperature coefficient and negative temperature coefficient characteristics to adjust the parameters of the device so that the absolute values ​​of the positive temperature coefficient and negative temperature coefficient of the entire bandgap voltage reference circuit are the same, so that the entire bandgap voltage The temperature coefficient of the reference circuit is zero. [0003] In the bandgap voltage reference circuit, two common-gat...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G05F3/24
Inventor 王超
Owner SAMSUNG SEMICON CHINA RES & DEV
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