CN203015213U - Large-dynamic high-precision constant-current source circuit device - Google Patents

Large-dynamic high-precision constant-current source circuit device Download PDF

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Publication number
CN203015213U
CN203015213U CN 201220701612 CN201220701612U CN203015213U CN 203015213 U CN203015213 U CN 203015213U CN 201220701612 CN201220701612 CN 201220701612 CN 201220701612 U CN201220701612 U CN 201220701612U CN 203015213 U CN203015213 U CN 203015213U
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China
Prior art keywords
series
resistance
circuit device
pipe
dynamic high
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Expired - Fee Related
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CN 201220701612
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Chinese (zh)
Inventor
刘珉恺
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Lei Yi photoelectric technology (Xi'an) Co., Ltd.
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刘珉恺
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Abstract

The utility model relates to a large-dynamic high-precision constant-current source circuit device. The device comprises an adjusting tube, a sampling resistor R0 and a feedback circuit, the adjusting tube and the sampling resistor R0 are connected in series, the feedback circuit is a photoelectric coupler, both ends of the sampling resistor R0 and an input end of the photoelectric coupler form a loop, an output end of the photoelectric coupler and a resistor R1 are connected in series, and a connection point of series connection is electrically connected with a control end of the adjusting tube. The large-dynamic high-precision constant-current source circuit device has the advantages of wide voltage range, low cost, good reliability, and high precision.

Description

Large dynamic high precision constant current primary circuit device
Technical field
The utility model relates to a kind of constant current primary circuit, particularly a kind of large dynamic high precision constant current primary circuit device.
Background technology
The performance parameter of three producers of existing constant-current source circuit free list 1, table 2, table 3 describes: table 1 is ON company,Table 2 is Science and technology is built up in Taiwan,Table 3 is Texas Instruments.
) ON company
Model Operating voltage Operating current Constant current accuracy Purposes
NSI50350AD 50 V 350 mA ±10% LED drives
NSI50350AS 50 V 350 mA ±10% LED drives
NSI45025Z 45 V 25 mA ±15% LED drives
NSI45030 45 V 30 mA ±15% LED drives
NSI45025A 45 V 25 mA ±10% LED drives
NSI45025 45 V 25 mA ±15% LED drives
NSI45020 45 V 20 mA ±15% LED drives
2) science and technology (Mcroblock) is built up in Taiwan
Model Operating voltage Operating current Constant current accuracy Purposes
MBI5016 0-7V 90 mA ±10% LED drives
MBI5025? 3-3.5 V 3-50 mA ±6% LED drives
MBI5026 5 V 5-90 mA ±6% LED drives
MBI5028 5 V 5-90 mA ±6% LED drives
MBI5030 5 V 8-90mA ±10% LED drives
MBI5031 5.5 V 5-80 mA ±10% LED drives
MBI5168 5 V 5-120 mA ±6% LED drives
3) Texas Instruments (TI)
Model Operating voltage Operating current Constant current accuracy Purposes
LM3492 4.5-65V 200 mA ±10% LED drives
LM3401 4.5-35 V 1A ±6% LED drives
LM3444 62 V 130 mA ±10% LED drives
LM3445 80-277 V 100 mA ±15% LED drives
LM3448 85-265 V 350 mA ±10% LED drives
TPS92210 85-265 V 350 mA ±10% LED drives
The product of three above-mentioned producers all exists The problem that constant current accuracy is low please be spent large voltage in the situation that needs are high, can not reliably use.
The utility model content
The purpose of this utility model is to provide that a kind of voltage range is wide, cost is low, good reliability, large dynamic high precision constant current primary circuit device that precision is high.
The purpose of this utility model is to realize like this, large dynamic high precision constant current primary circuit device, comprise: adjust pipe, sample resistance R0 and feedback circuit, adjusting pipe and sample resistance R0 is connected in series, feedback circuit is photoelectrical coupler, sample resistance R0 two ends and photoelectrical coupler input form the loop, and photoelectric coupler output end and resistance R 1 are connected in series, and are connected in series a little to be electrically connected to the control end of adjusting pipe.During work, load, adjustment pipe and sample resistance R0 are connected in series in the positive and negative two ends of second voltage source E2 successively, photoelectric coupler output end and resistance R 1 are connected in series in the first voltage source E1 positive and negative two ends, at this moment, adjust the pipe conducting, second voltage source E2 is to load, sample resistance R0, the power supply of adjustment pipe, when increasing to sample resistance R0 both end voltage, the load circuit electric current makes, when photoelectric coupler output end voltage control adjustment pipe is equilibrated at a certain electric current, circuit is in stable state, and electric current will be in very little spatial variations.
Described adjustment pipe is N raceway groove mos pipe, and drain electrode and the source electrode of load, sample resistance R0, adjustment pipe are serially connected in the positive and negative two ends of second voltage source E2 successively.
Described adjustment pipe is the npn triode, and the collector and emitter of load, sample resistance R0, npn triode is serially connected in the positive and negative two ends of second voltage source E2 successively.
Described sample resistance R0 two ends form the loop by current-limiting resistance R2 and photoelectrical coupler input.
Described photoelectric coupler output end and resistance R 1 are connected in series, and are connected in series a little to be electrically connected to the control end of adjusting pipe by current-limiting resistance R3.
The utility model has the advantages that: owing to having sealed in sample resistance R0 and adjust pipe in load circuit, voltage on sample resistance R0 is controlled voltage feedback circuit by photoelectrical coupler, the resistance value of readjusting load circuit by voltage feedback circuit makes the current status of load circuit work design, therefore,, the light output of LED will not change with factors vary such as input voltage and temperature.Integrated circuit is simple and reliable.
Description of drawings
The utility model is described in further detail below in conjunction with the embodiment accompanying drawing:
Fig. 1 is the utility model embodiment 1 circuit theory diagrams;
Fig. 2 is the utility model embodiment 2 circuit theory diagrams;
Fig. 3 is the utility model embodiment 3 circuit theory diagrams.
In figure, 1, adjust pipe; 2, load; 3, feedback circuit.
Embodiment
As shown in Figure 1, comprise: adjust pipe 1, sample resistance R0 and feedback circuit 3, adjusting pipe 1 and sample resistance R0 is connected in series, feedback circuit 3 is photoelectrical coupler, sample resistance R0 two ends and photoelectrical coupler input form the loop, photoelectric coupler output end and resistance R 1 are connected in series, and are connected in series a little to be electrically connected to the control end of adjusting pipe 1.During work, load 2, adjustment pipe 1 and sample resistance R0 are connected in series in the positive and negative two ends of second voltage source E2 successively, photoelectric coupler output end and resistance R 1 are connected in series in the first voltage source E1 positive and negative two ends, at this moment, adjust pipe 1 conducting, second voltage source E2 is to load 2, sample resistance R0,1 power supply of adjustment pipe, when increasing to sample resistance R0 both end voltage, the load circuit electric current makes, when photoelectric coupler output end voltage control adjustment pipe 1 is equilibrated at a certain electric current, circuit is in stable state, and electric current will be in very little spatial variations; Adjusting pipe 1 is N raceway groove mos pipe, and drain electrode and the source electrode of load 2, sample resistance R0, adjustment pipe 1 are serially connected in the positive and negative two ends of second voltage source E2 successively.
Embodiment 2
As shown in Figure 2, adjusting pipe 1 is the npn triode, and the collector and emitter of load 2, sample resistance R0, npn triode is serially connected in the positive and negative two ends of second voltage source E2 successively; Sample resistance R0 two ends form the loop by current-limiting resistance R2 and photoelectrical coupler input.
Embodiment 3
As shown in Figure 3, adjusting pipe 1 is the npn triode, and the collector and emitter of load 2, sample resistance R0, npn triode is serially connected in the positive and negative two ends of second voltage source E2 successively; Sample resistance R0 two ends form the loop by current-limiting resistance R2 and photoelectrical coupler input.Photoelectric coupler output end and resistance R 1 are connected in series, and are connected in series a little to be electrically connected to the control end of adjusting pipe 1 by current-limiting resistance R3.
When table 1 provided the fixed voltage load, during the change in voltage of second voltage source, the constant current output result can get from measured data, and the utility model all is stabilized in 20mA ± 1mA. constant current accuracy at the output voltage of 180-240V and reaches ± and 3%.
Figure 825767DEST_PATH_IMAGE002
In fact adjusting pipe 1 can be also pnp triode and p channel MOS tube.

Claims (5)

1. large dynamic high precision constant current primary circuit device, it is characterized in that: comprising: adjust pipe, sample resistance R0 and feedback circuit, adjusting pipe and sample resistance R0 is connected in series, feedback circuit is photoelectrical coupler, sample resistance R0 two ends and photoelectrical coupler input form the loop, photoelectric coupler output end and resistance R 1 are connected in series, and are connected in series a little to be electrically connected to the control end of adjusting pipe.
2. large dynamic high precision constant current primary circuit device according to claim 1 is characterized in that: described adjustment pipe is N raceway groove mos pipe, and load, sample resistance R0, drain electrode and the source electrode of adjusting pipe are serially connected in the positive and negative two ends of second voltage source E2 successively.
3. large dynamic high precision constant current primary circuit device according to claim 1, it is characterized in that: described adjustment pipe is the npn triode, the collector and emitter of load, sample resistance R0, npn triode is serially connected in the positive and negative two ends of second voltage source E2 successively.
4. large dynamic high precision constant current primary circuit device according to claim 1 is characterized in that: described sample resistance R0 two ends are by current-limiting resistance R2 and photoelectrical coupler input formation loop.
5. large dynamic high precision constant current primary circuit device according to claim 1, it is characterized in that: described photoelectric coupler output end and resistance R 1 are connected in series, and are connected in series a little to be electrically connected to the control end of adjustment pipe by current-limiting resistance R3.
CN 201220701612 2012-12-18 2012-12-18 Large-dynamic high-precision constant-current source circuit device Expired - Fee Related CN203015213U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN 201220701612 CN203015213U (en) 2012-12-18 2012-12-18 Large-dynamic high-precision constant-current source circuit device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN 201220701612 CN203015213U (en) 2012-12-18 2012-12-18 Large-dynamic high-precision constant-current source circuit device

Publications (1)

Publication Number Publication Date
CN203015213U true CN203015213U (en) 2013-06-19

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN 201220701612 Expired - Fee Related CN203015213U (en) 2012-12-18 2012-12-18 Large-dynamic high-precision constant-current source circuit device

Country Status (1)

Country Link
CN (1) CN203015213U (en)

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C14 Grant of patent or utility model
GR01 Patent grant
ASS Succession or assignment of patent right

Owner name: LEIYI PHOTOELECTRIC TECHNOLOGY (XI'AN) CO., LTD.

Free format text: FORMER OWNER: LIU MINKAI

Effective date: 20140616

C41 Transfer of patent application or patent right or utility model
COR Change of bibliographic data

Free format text: CORRECT: ADDRESS; FROM: 710300 XI'AN, SHAANXI PROVINCE TO: 710065 XI'AN, SHAANXI PROVINCE

TR01 Transfer of patent right

Effective date of registration: 20140616

Address after: 710065 No. 209, No. four, science and Technology Development Zone, Xi'an hi tech Development Zone, Shaanxi, Xi'an

Patentee after: Lei Yi photoelectric technology (Xi'an) Co., Ltd.

Address before: Huxian Station Road 710300 Shaanxi city of Xi'an province No. 68 Spring Hotel

Patentee before: Liu Minkai

CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20130619

Termination date: 20151218

EXPY Termination of patent right or utility model