CN207965057U - A kind of fine or not detection device of Buck-Boost integrated voltage-stabilized chips - Google Patents
A kind of fine or not detection device of Buck-Boost integrated voltage-stabilized chips Download PDFInfo
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- CN207965057U CN207965057U CN201820122877.1U CN201820122877U CN207965057U CN 207965057 U CN207965057 U CN 207965057U CN 201820122877 U CN201820122877 U CN 201820122877U CN 207965057 U CN207965057 U CN 207965057U
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Abstract
The utility model is related to the fine or not detection devices of Buck Boost integrated voltage-stabilized chips, belong to chip detection field.Including IC, 8 foot, IC, 5 foot, multi-resonant oscillating circuit, X9C102 digital regulation resistances, pulse-width modulation circuit, Combinational Logic Control circuit, port switching circuit, booster circuit;8 IC, feet, IC, 5 foot are connected with port switching circuit, and port switching circuit is connect with pulse-width modulation circuit, Combinational Logic Control circuit, booster circuit respectively, and multi-resonant oscillating circuit is connect by X9C102 digital regulation resistances with pulse-width modulation circuit.The utility model selects Buck Boost integrated voltage-stabilized chip types by switch, and Buck Boost integrated voltage-stabilized chips are made to be operated in boost or depressurization state by pulsewidth modulation, judge whether chip under test works normally according to the brightness of light emitting diode, it is simple in structure, it is easy to operate, detection result is good, as a result shows clear and easy to understand.
Description
Technical field
The utility model is related to a kind of fine or not detection devices of Buck-Boost integrated voltage-stabilized chips, belong to chip detection skill
Art field.
Background technology
Currently, people when encountering failure using Buck-Boost integrated voltage-stabilized chips, usually take out the chip, peace
It is attached to the quality of detection chip in its typical circuit, in detection process, people measure the electricity of each of which pin by multimeter
Whether pressure is normal, or judges the quality of chip, this inspection by adjusting potentiometer and observing its output voltage signal and whether change
Survey method is time-consuming and laborious, and the accident in detection process due to accidentally making chip burn in the test pencil of multimeter or gear wrong
Often occur, be unfavorable for operating, and there are some potential safety problemss.
Invention content
The technical problems to be solved in the utility model is:The utility model provides a kind of Buck-Boost integrated voltage-stabilized chips
Fine or not detection device, for solving the problems, such as time-consuming and laborious existing detection device, bad operation, there are security risk, this
Utility model selects the type of Buck-Boost integrated voltage-stabilized chips by switch, and makes Buck-Boost collection by pulsewidth modulation
It is operated in boost or depressurization state at voltage stabilizing chip, to judge the whether normal work of chip under test according to the brightness of light emitting diode
Make.
Technical solutions of the utility model are:A kind of fine or not detection device of Buck-Boost integrated voltage-stabilized chips, including 8 feet
IC seats 1,5 foot IC seats 2, multi-resonant oscillating circuit 3, X9C102 digital regulation resistances 4, pulse-width modulation circuit 5, Combinational Logic Control circuit
6, port switching circuit 7, booster circuit 8;8 foot IC seats 1,5 foot IC seats 2 are connected with port switching circuit 7, port switching circuit
7 connect with pulse-width modulation circuit 5, Combinational Logic Control circuit 6, booster circuit 8 respectively, and multi-resonant oscillating circuit 3 passes through X9C102
Digital regulation resistance 4 is connect with pulse-width modulation circuit 5;
The Combinational Logic Control circuit 6 include switch K1, K2, K3, K4, resistance R5, R6, R7, R8, NOT gate N1, N2,
N3, N4, four inputs and door F1, F2, F3, F4 or door M1, M2;One end of described switch K1, K2, K3, K4 simultaneously with+5V power supplys
End connection, the other end of switch K1, K2, K3, K4 respectively connected the input terminal of NOT gate N1, N2, N3, N4, NOT gate N1, N2, N3,
The input terminal of N4 is grounded by resistance R5, R6, R7, R8 respectively, and the input terminal of NOT gate N1, N4 is defeated with four inputs and door F1 respectively
Enter to hold A1, four inputs to be connect with the input terminal D4 of door F4, the input terminal of NOT gate N2 is connected to the input of four inputs and door F2 simultaneously
End B2, four inputs are connect with the input terminal B3 of door F3, and the output end of NOT gate N1 is connected to the input terminal of four inputs and door F2 simultaneously
A2, four inputs and the input terminal A3 of door F3, the input terminal A4 of four inputs and door F4, it is defeated that the output end of NOT gate N2 is connected to four simultaneously
Enter the input terminal B4 with the input terminal B1 of door F1, four inputs and door F4, the output end of NOT gate N3 is connected to four inputs and door simultaneously
The input terminal C1 of F1, the input terminal C2 of four inputs and door F2, four inputs and the input terminal C3 of door F3, the input of four inputs and door F4
C4, the output end of NOT gate N4 is held to be connected to the input terminal D1 of four inputs and door F1, the input terminal D2 of four inputs and door F2, four simultaneously
Output end Y1, Y2 of the input terminal D3 of input and door F3, four inputs and door F1, F2 respectively with or two input terminals of door M1 connect
Connect, four inputs and output end Y3, Y4 of door F3, F4 respectively with or two input terminals of door M2 connect.
The multi-resonant oscillating circuit 3 include 555 time-base integrated circuits 9, resistance R1, R2, diode D1, D2, capacitance C1,
C2;The ends RD and the ends VCC of 555 time-base integrated circuit 9 are connect with+5V power ends simultaneously, the RD of 555 time-base integrated circuits 9
End is connect by resistance R1 with its end VOD, the ends VOD of 555 time-base integrated circuits 9 while one end with resistance R2 and diode D1
Anode connection, the anode of the cathode of diode D1 simultaneously with the ends TH of 555 time-base integrated circuits 9, the ends TR, diode D2 connects
It connects, the cathode of diode D2 is connect with the other end of resistance R2, and the ends TR, the ends VCO of 555 time-base integrated circuits 9 pass through electricity respectively
Hold after C1, C2 are connect with its end GND and be grounded, the output end of circuit 3 is worked as at the ends VO of 555 time-base integrated circuits 9 as multi-resonant;
The output end of 555 time-base integrated circuit 9 and the ends INC ' of X9C102 digital regulation resistances 4 connect, X9C102 numbers
The ends U/D ', the ends VL/RL, the ends VSS of word potentiometer 4 are grounded after connecting;The ends VH/RH of X9C102 digital regulation resistances 4 connect with the ends VCC
It is connect with+5V power ends after connecing, the ends CS ' ground connection;
The pulse-width modulation circuit 5 includes TL494 chips 10, resistance R3, R4, capacitance C3, potentiometer RW;The TL494
The ends FB of chip 10 are connect with the ends VW/RW of X9C102 digital regulation resistances 4, the ends 2IN+, the ends 1IN+, the ends GND of TL494 chips 10
It is grounded after connection, the end DTC, CT, RT of TL494 chips 10 passes through resistance R3, capacitance C3, potentiometer RW ground connection, TL494 cores respectively
The 1IN- of piece 10 is connect by resistance R4 with its end REF and the ends OC after being connect with 2IN-, and the ends VCC are connect with+15V power ends,
Its end E1 is grounded after being connect with the ends E2, the output end of the ends C1 of TL494 chips 10 as pulse-width modulation circuit 5;
The port switching circuit 7 includes ADG884 single pole double throw analogs switch I, ADG884 single pole double throw analogs switch
II, ADG884 single pole double throw analogs switch III;
1 foot of the 5 foot IC seats 2,2 feet, 3 feet, 4 feet, 5 the feet S1A with ADG884 single pole double throw analogs switch I respectively
End, the ends S2A, the ends S2A of ADG884 single pole double throw analogs switch II, the ends S1A, ADG884 single pole double throw analogs switch III S1A
End connection;
1 foot of the 8 foot IC seats 1,2 feet, 3 feet respectively with the ends S2B of ADG884 single pole double throw analogs switch I, ADG884
The ends S1B of single pole double throw analog switch II, the ends the S1B connection of ADG884 single pole double throw analogs switch III, ADG884 single-pole double throws
The ends IN1 of analog switch I, the ends IN2, the ends IN1 of ADG884 single pole double throw analogs switch II, the ends IN2, ADG884 single-pole double throw moulds
The ends IN1 of quasi- switch III simultaneously with or the output end of door M1 connect, the ends IN2 of ADG884 single pole double throw analogs switch III and or door
The output end of M2 connects, the ends the D1 ground connection of ADG884 single pole double throw analogs switch I, the D2 of ADG884 single pole double throw analogs switch I
End is connect with the output end of pulse-width modulation circuit 5, and the ends D1 of ADG884 single pole double throw analogs switch III are connect with its end D2 ,+15V
The ends D1 of its forward end and ADG884 single pole double throw analogs switch I connect after passing sequentially through capacitance C5, C4 filtering between power end and ground
It connects.
The booster circuit 8 include inductance L1, L2, capacitance C4, C5, C6, C7, C8, resistance 9, R10, R11, R12, R13,
Diode D3, zener diode DZ1, LED1 light emitting diode, LED2 light emitting diodes;The ADG884 single pole double throw analogs are opened
The ends D1 of pass I are connect by inductance L1 with its end D2, and the ends D2 of ADG884 single pole double throw analogs switch I connect with the anode of capacitance C6
It connects, the cathode of capacitance C6 is connect with the anode of one end of inductance L2, diode D3 simultaneously, the other end ground connection of inductance L2, two poles
Its anode passes through anode of resistance R9 and LED1 light emitting diodes after shunt capacitance C7, C8 is filtered successively between the cathode and ground of pipe D3
Connection, the minus earth of LED1 light emitting diodes;The cathode of diode D3 while one end with resistance R10, zener diode DZ1
Cathode, LED2 light emitting diodes anode connection, the other end of resistance R10 and ADG884 single pole double throw analogs switch III
The ends S2B connect, and the ends S2B of ADG884 single pole double throw analogs switch III are grounded by resistance R11, the anode of zener diode DZ1
It is connect with the ends S2A of ADG884 single pole double throw analogs switch III, the ends S2A of ADG884 single pole double throw analogs switch III pass through resistance
R12 is connect with the cathode of LED2 Light-Emitting Diodes, and the cathode of LED2 Light-Emitting Diodes is grounded by resistance R13.
Buck-Boost integrated voltage-stabilized chips are generally divided into 4 types:5 foot IC constant-pressure types, 5 foot IC constant-current types, 8 foot IC are permanent
Die mould, 8 foot IC constant-current types;
The process for using above-mentioned apparatus carry out the detection of Buck-Boost integrated voltage-stabilized chip quality is as follows:
A, detected chip is inserted into IC by defined order of the pin, 8 foot chips are inserted into 8 foot IC seats, 1,5 foot chip and insert
Enter 5 foot IC seats 2;
B, power on;
C, 3 output pulse signal of multi-resonant oscillating circuit is to X9C102 digital regulation resistances 4, when arriving failing edge,
The voltage at the ends X9C102 digital regulation resistance 4VW/RW gradually rises, and the PWM duty cycle that pulse-width modulation circuit 5 exports is made gradually to rise
It is high;6 output signal of Combinational Logic Control circuit controls single pole double throw analog switch I, single pole double throw analog switch II by pulsewidth tune
The output end of circuit 5 processed is connect with 2 feet of 1 foot of 8 foot IC seats 1 or 5 foot IC seats 2, meanwhile, Combinational Logic Control circuit 6 exports
Signal control single pole double throw analog switch I, single pole double throw analog switch II by the pin of 8 foot IC seats 1 or 5 foot IC seats 2 respectively with
The corresponding end of booster circuit 8 connects, to make the pwm signal that pulse-width modulation circuit 5 exports be detected by what is installed on IC seats
The brightness change of LED1, LED2 light emitting diode in chip controls booster circuit 8;
If D, detected chip is 5 foot constant-pressure type Buck-Boost integrated voltage-stabilized chips, by lower switch K1, NOT gate N1,
N2, N3, N4 export high level, low level, low level, low level signal respectively, and four inputs export respectively with door F1, F2, F3, F4
High level, low level, low level, low level signal or door M1, M2 export high level, low level signal respectively, double by hilted broadsword
1 foot of 5 foot IC seats 2 after analog switch I is converted is thrown as low level signal, the output of 2 feet and pulse-width modulation circuit 5 of 5 foot IC seats 2
End connection, 4 feet of 5 foot IC seats 2 connect with the ends D1 of single pole double throw analog switch II after the conversion of single pole double throw analog switch II
It connects, 3 feet of 5 foot IC seats 2 are connect with the ends D2 of single pole double throw analog switch II, and 5 feet of 5 foot IC seats 2 are opened with single pole double throw analog
Close III ends S2B connection;
If being detected chip normal work, 5 output duty cycle of pulse-width modulation circuit gradually rise pwm signal pass through it is tested
Surveying chip conversion makes LED1 light emitting diodes both end voltage in booster circuit 8 gradually rise, to make LED1 light emitting diodes
Brightness gradually increases;If detected chip is faulty, 5 output duty cycle of pulse-width modulation circuit gradually rises pwm signal and passes through
Detected chip cannot control the voltage change of LED1 light emitting diodes both end voltage in booster circuit 8, LED1 light emitting diodes
Both ends are in a steady state value, i.e. the brightness of LED1 light emitting diodes is constant or LED1 light emitting diodes do not shine.
If E, detected chip is 5 foot constant-current type Buck-Boost integrated voltage-stabilized chips, by lower switch K2, switch K1,
K3, K4 are failure to actuate, and NOT gate N1, N2, N3, N4 export low level, high level, low level, low level signal, four inputs and door respectively
F1, F2, F3, F4 export low level, high level, high level, low level signal or door M1, M2 and export high level, height respectively respectively
Level signal, after single pole double throw analog switch I is converted 1 foot of 5 foot IC seats 2 into low level signal, 2 feet of 5 foot IC seats 2 with
The output end of pulse-width modulation circuit 5 connects, 4 feet and single-pole double throw of 5 foot IC seats 2 after the conversion of single pole double throw analog switch II
The ends D1 of analog switch II connect, and 3 feet of 5 foot IC seats 2 are connect with the ends D2 of single pole double throw analog switch II, and the 5 of 5 foot IC seats 2
Foot is connect with the ends S2A of single pole double throw analog switch III, is detected chip and is in constant current state;
If being detected chip normal work, 5 output duty cycle of pulse-width modulation circuit gradually rise pwm signal pass through it is tested
Surveying chip conversion makes LED1, LED2 light emitting diode both end voltage in booster circuit 8 gradually rise, to make LED1, LED2 send out
The brightness of optical diode gradually increases;If detected chip is faulty, 5 output duty cycle of pulse-width modulation circuit gradually rises
The voltage that pwm signal cannot control LED1, LED2 light emitting diode both end voltage in booster circuit 8 by being detected chip becomes
Change, LED1, LED2 light emitting diode both ends are in a steady state value, i.e. the brightness of LED1 light emitting diodes is constant or LED1 shines
Diode does not shine.
If F, detected chip is 8 foot constant-pressure type Buck-Boost integrated voltage-stabilized chips, by lower switch K3, switch K1,
K2, K4 are failure to actuate, and NOT gate N1, N2, N3, N4 export high level, high level, low level, high level signal, four inputs and door respectively
F1, F2, F3, F4 export low level signal or door M1, M2 export low level signal respectively, by single pole double throw analog switch I
Into low level signal, 1 foot of 8 foot IC seats 1 connects with the output end of pulse-width modulation circuit 5 for 7 feet of 8 foot IC seats 1 and 8 feet after converting
It connecing, 2 feet of 8 foot IC seats 1 are connect with the ends D1 of single pole double throw analog switch II after the conversion of single pole double throw analog switch II, and 8
5 feet and 6 feet of foot IC seats 1 are connect with the ends D2 of single pole double throw analog switch II, and 3 feet of 8 foot IC seats 1 are opened with single pole double throw analog
The ends the S2B connection for closing III, is detected chip and is in pressure constant state;
If being detected chip normal work, 5 output duty cycle of pulse-width modulation circuit gradually rise pwm signal pass through it is tested
Surveying chip conversion makes LED1 light emitting diodes both end voltage in booster circuit 8 gradually rise, to make LED1 light emitting diodes
Brightness gradually increases;If detected chip is faulty, 5 output duty cycle of pulse-width modulation circuit gradually rises pwm signal and passes through
Detected chip cannot control the voltage change of LED1 light emitting diodes both end voltage in booster circuit 8, LED1 light emitting diodes
Both ends are in a steady state value, i.e. the brightness of LED1 light emitting diodes is constant or LED1 light emitting diodes do not shine.
If G, detected chip is 8 foot constant-current type Buck-Boost integrated voltage-stabilized chips, by lower switch K4, switch K1,
K2, K3 are failure to actuate, and NOT gate N1, N2, N3, N4 export high level, high level, high level, low level signal, four inputs and door respectively
F1, F2, F3, F4 export low level, low level, low level, high level signal or door M1, M2 and export low level, height respectively respectively
Level signal, after single pole double throw analog switch I is converted 7 feet of 8 foot IC seats 1 and 8 feet into low level signal, 8 foot IC seats 1
1 foot is connect with the output end of pulse-width modulation circuit 5,2 feet and list of 8 foot IC seats 1 after the conversion of single pole double throw analog switch II
The ends D1 of dpdt double-pole double-throw (DPDT) analog switch II connect, and 5 feet and 6 feet of 8 foot IC seats 1 are connect with the ends D2 of single pole double throw analog switch II, and 8
3 feet of foot IC seats 1 are connect with the ends S2A of single pole double throw analog switch III, are detected chip and are in constant current state;
If being detected chip normal work, 5 output duty cycle of pulse-width modulation circuit gradually rise pwm signal pass through it is tested
Surveying chip conversion makes LED1, LED2 light emitting diode both end voltage in booster circuit 8 gradually rise, to make LED1, LED2 send out
The brightness of optical diode gradually increases;If detected chip is faulty, 5 output duty cycle of pulse-width modulation circuit gradually rises
The voltage that pwm signal cannot control LED1, LED2 light emitting diode both end voltage in booster circuit 8 by being detected chip becomes
Change, LED1, LED2 light emitting diode both ends are in a steady state value, i.e. the brightness of LED1 light emitting diodes is constant or LED1 shines
Diode does not shine.
I, detection finishes, and closes power supply.
The utility model has the beneficial effects that:The utility model provides a kind of quality of Buck-Boost integrated voltage-stabilized chips
Detection device, the type of Buck-Boost integrated voltage-stabilized chips is selected by switch, and makes Buck-Boost by pulsewidth modulation
Integrated voltage-stabilized chip is operated in boost or depressurization state, to judge whether chip under test is normal according to the brightness of light emitting diode
Work.The utility model is simple in structure, easy to operate, and detection result is good, as a result shows clear and easy to understand.
Description of the drawings
Fig. 1 is the circuit block diagram of the utility model;
Fig. 2 is the circuit diagram of the utility model.
Each label in Fig. 1-2:IC, 1-8 feet, IC, 2-5 feet, 3- multi-resonant oscillating circuits, 4-X9C102 digital regulation resistances,
Basis set is at electricity when 5- pulse-width modulation circuits, 6- Combinational Logic Controls circuit, the ports 7- switching circuit, 8- booster circuits, 9-555
Road, 10-TL494 chips, R1~R13- resistance, C1~C8- capacitances, D1~D3- diodes, RW- potentiometers, K1~K4- switch,
N1~N4- NOT gates, F1~F4- tetra- input with door, M1~M2- or door, L1~L2- inductance, LED1~LED2- light emitting diodes,
DZ1- zener diodes.
Specific implementation mode
Utility model will be further explained below with reference to the attached drawings and specific embodiments.
Embodiment 1:As shown in Figs. 1-2, a kind of fine or not detection device of Buck-Boost integrated voltage-stabilized chips, including 8 feet
IC seats 1,5 foot IC seats 2, multi-resonant oscillating circuit 3, X9C102 digital regulation resistances 4, pulse-width modulation circuit 5, Combinational Logic Control circuit
6, port switching circuit 7, booster circuit 8;8 foot IC seats 1,5 foot IC seats 2 are connected with port switching circuit 7, port switching circuit
7 connect with pulse-width modulation circuit 5, Combinational Logic Control circuit 6, booster circuit 8 respectively, and multi-resonant oscillating circuit 3 passes through X9C102
Digital regulation resistance 4 is connect with pulse-width modulation circuit 5;
The Combinational Logic Control circuit 6 include switch K1, K2, K3, K4, resistance R5, R6, R7, R8, NOT gate N1, N2,
N3, N4, four inputs and door F1, F2, F3, F4 or door M1, M2;One end of described switch K1, K2, K3, K4 simultaneously with+5V power supplys
End connection, the other end of switch K1, K2, K3, K4 respectively connected the input terminal of NOT gate N1, N2, N3, N4, NOT gate N1, N2, N3,
The input terminal of N4 is grounded by resistance R5, R6, R7, R8 respectively, and the input terminal of NOT gate N1, N4 is defeated with four inputs and door F1 respectively
Enter to hold A1, four inputs to be connect with the input terminal D4 of door F4, the input terminal of NOT gate N2 is connected to the input of four inputs and door F2 simultaneously
End B2, four inputs are connect with the input terminal B3 of door F3, and the output end of NOT gate N1 is connected to the input terminal of four inputs and door F2 simultaneously
A2, four inputs and the input terminal A3 of door F3, the input terminal A4 of four inputs and door F4, it is defeated that the output end of NOT gate N2 is connected to four simultaneously
Enter the input terminal B4 with the input terminal B1 of door F1, four inputs and door F4, the output end of NOT gate N3 is connected to four inputs and door simultaneously
The input terminal C1 of F1, the input terminal C2 of four inputs and door F2, four inputs and the input terminal C3 of door F3, the input of four inputs and door F4
C4, the output end of NOT gate N4 is held to be connected to the input terminal D1 of four inputs and door F1, the input terminal D2 of four inputs and door F2, four simultaneously
Output end Y1, Y2 of the input terminal D3 of input and door F3, four inputs and door F1, F2 respectively with or two input terminals of door M1 connect
Connect, four inputs and output end Y3, Y4 of door F3, F4 respectively with or two input terminals of door M2 connect.
Further, the multi-resonant oscillating circuit 3 include 555 time-base integrated circuits 9, resistance R1, R2, diode D1, D2,
Capacitance C1, C2;The ends RD and the ends VCC of 555 time-base integrated circuit 9 are connect with+5V power ends simultaneously, and basis set is at electricity when 555
The ends RD on road 9 are connect by resistance R1 with its end VOD, the ends VOD of 555 time-base integrated circuits 9 simultaneously with one end of resistance R2 and
The anode of diode D1 connects, the cathode of diode D1 simultaneously with the ends TH of 555 time-base integrated circuits 9, the ends TR, diode D2
Anode connects, and the cathode of diode D2 is connect with the other end of resistance R2, the ends TR of 555 time-base integrated circuits 9, the ends VCO difference
It is grounded after being connect with its end GND by capacitance C1, C2, the defeated of circuit 3 is worked as in the ends VO of 555 time-base integrated circuits 9 as multi-resonant
Outlet;
The output end of 555 time-base integrated circuit 9 and the ends INC ' of X9C102 digital regulation resistances 4 connect, X9C102 numbers
The ends U/D ', the ends VL/RL, the ends VSS of word potentiometer 4 are grounded after connecting;The ends VH/RH of X9C102 digital regulation resistances 4 connect with the ends VCC
It is connect with+5V power ends after connecing, the ends CS ' ground connection.
Further, the pulse-width modulation circuit 5 includes TL494 chips 10, resistance R3, R4, capacitance C3, potentiometer RW;
The ends FB of the TL494 chips 10 are connect with the ends VW/RW of X9C102 digital regulation resistances 4, the ends 2IN+ of TL494 chips 10,1IN
It is grounded after+end, the connection of the ends GND, the end DTC, CT, RT of TL494 chips 10 is connect by resistance R3, capacitance C3, potentiometer RW respectively
Ground, the 1IN- of TL494 chips 10 are connect by resistance R4 with its end REF and the ends OC after being connect with 2IN-, the ends VCC and+15V electricity
Source connects, and the ends E1 are grounded after being connect with the ends E2, the output end of the ends C1 of TL494 chips 10 as pulse-width modulation circuit 5.
Further, the port switching circuit 7 includes ADG884 single pole double throw analogs switch I, ADG884 single-pole double throws
Analog switch II, ADG884 single pole double throw analogs switch III;
1 foot of the 5 foot IC seats 2,2 feet, 3 feet, 4 feet, 5 the feet S1A with ADG884 single pole double throw analogs switch I respectively
End, the ends S2A, the ends S2A of ADG884 single pole double throw analogs switch II, the ends S1A, ADG884 single pole double throw analogs switch III S1A
End connection;
1 foot of the 8 foot IC seats 1,2 feet, 3 feet respectively with the ends S2B of ADG884 single pole double throw analogs switch I, ADG884
The ends S1B of single pole double throw analog switch II, the ends the S1B connection of ADG884 single pole double throw analogs switch III, ADG884 single-pole double throws
The ends IN1 of analog switch I, the ends IN2, the ends IN1 of ADG884 single pole double throw analogs switch II, the ends IN2, ADG884 single-pole double throw moulds
The ends IN1 of quasi- switch III simultaneously with or the output end of door M1 connect, the ends IN2 of ADG884 single pole double throw analogs switch III and or door
The output end of M2 connects, the ends the D1 ground connection of ADG884 single pole double throw analogs switch I, the D2 of ADG884 single pole double throw analogs switch I
End is connect with the output end of pulse-width modulation circuit 5, and the ends D1 of ADG884 single pole double throw analogs switch III are connect with its end D2 ,+15V
The ends D1 of its forward end and ADG884 single pole double throw analogs switch I connect after passing sequentially through capacitance C5, C4 filtering between power end and ground
It connects.
Further, the booster circuit 8 include inductance L1, L2, capacitance C4, C5, C6, C7, C8, resistance 9, R10, R11,
R12, R13, diode D3, zener diode DZ1, LED1 light emitting diode, LED2 light emitting diodes;The ADG884 hilted broadswords are double
The ends D1 for throwing analog switch I are connect by inductance L1 with its end D2, the ends D2 and the capacitance C6 of ADG884 single pole double throw analogs switch I
Anode connection, the cathode of capacitance C6 connect with the anode of one end of inductance L2, diode D3 simultaneously, the other end of inductance L2
Ground connection, its anode passes through resistance R9 and LED1 luminous two after shunt capacitance C7, C8 is filtered successively between the cathode and ground of diode D3
The anode of pole pipe connects, the minus earth of LED1 light emitting diodes;The cathode of diode D3 simultaneously with one end of resistance R10, steady
Press the anode connection of the cathode, LED2 light emitting diodes of diode DZ1, the other end and the ADG884 single-pole double throw moulds of resistance R10
The ends the S2B connection of quasi- switch III, the ends S2B of ADG884 single pole double throw analogs switch III are grounded by resistance R11, zener diode
The anode of DZ1 is connect with the ends S2A of ADG884 single pole double throw analogs switch III, the S2A of ADG884 single pole double throw analogs switch III
End is connect by resistance R12 with the cathode of LED2 Light-Emitting Diodes, and the cathode of LED2 Light-Emitting Diodes is grounded by resistance R13.
Buck-Boost integrated voltage-stabilized chips are generally divided into 4 types:5 foot IC constant-pressure types, 5 foot IC constant-current types, 8 foot IC are permanent
Die mould, 8 foot IC constant-current types;
The process for using above-mentioned apparatus carry out the detection of Buck-Boost integrated voltage-stabilized chip quality is as follows:
A, detected chip is inserted into IC by defined order of the pin, 8 foot chips are inserted into 8 foot IC seats, 1,5 foot chip and insert
Enter 5 foot IC seats 2;
B, power on;
C, 3 output pulse signal of multi-resonant oscillating circuit is to X9C102 digital regulation resistances 4, when arriving failing edge,
The voltage at the ends X9C102 digital regulation resistance 4VW/RW gradually rises, and the PWM duty cycle that pulse-width modulation circuit 5 exports is made gradually to rise
It is high;6 output signal of Combinational Logic Control circuit controls single pole double throw analog switch I, single pole double throw analog switch II by pulsewidth tune
The output end of circuit 5 processed is connect with 2 feet of 1 foot of 8 foot IC seats 1 or 5 foot IC seats 2, meanwhile, Combinational Logic Control circuit 6 exports
Signal control single pole double throw analog switch I, single pole double throw analog switch II by the pin of 8 foot IC seats 1 or 5 foot IC seats 2 respectively with
The corresponding end of booster circuit 8 connects, to make the pwm signal that pulse-width modulation circuit 5 exports be detected by what is installed on IC seats
The brightness change of LED1, LED2 light emitting diode in chip controls booster circuit 8;
If D, detected chip is 5 foot constant-pressure type Buck-Boost integrated voltage-stabilized chips, by lower switch K1, NOT gate N1,
N2, N3, N4 export high level, low level, low level, low level signal respectively, and four inputs export respectively with door F1, F2, F3, F4
High level, low level, low level, low level signal or door M1, M2 export high level, low level signal respectively, double by hilted broadsword
1 foot of 5 foot IC seats 2 after analog switch I is converted is thrown as low level signal, the output of 2 feet and pulse-width modulation circuit 5 of 5 foot IC seats 2
End connection, 4 feet of 5 foot IC seats 2 connect with the ends D1 of single pole double throw analog switch II after the conversion of single pole double throw analog switch II
It connects, 3 feet of 5 foot IC seats 2 are connect with the ends D2 of single pole double throw analog switch II, and 5 feet of 5 foot IC seats 2 are opened with single pole double throw analog
Close III ends S2B connection;
If being detected chip normal work, 5 output duty cycle of pulse-width modulation circuit gradually rise pwm signal pass through it is tested
Surveying chip conversion makes LED1 light emitting diodes both end voltage in booster circuit 8 gradually rise, to make LED1 light emitting diodes
Brightness gradually increases;If detected chip is faulty, 5 output duty cycle of pulse-width modulation circuit gradually rises pwm signal and passes through
Detected chip cannot control the voltage change of LED1 light emitting diodes both end voltage in booster circuit 8, LED1 light emitting diodes
Both ends are in a steady state value, i.e. the brightness of LED1 light emitting diodes is constant or LED1 light emitting diodes do not shine.
If E, detected chip is 5 foot constant-current type Buck-Boost integrated voltage-stabilized chips, by lower switch K2, switch K1,
K3, K4 are failure to actuate, and NOT gate N1, N2, N3, N4 export low level, high level, low level, low level signal, four inputs and door respectively
F1, F2, F3, F4 export low level, high level, high level, low level signal or door M1, M2 and export high level, height respectively respectively
Level signal, after single pole double throw analog switch I is converted 1 foot of 5 foot IC seats 2 into low level signal, 2 feet of 5 foot IC seats 2 with
The output end of pulse-width modulation circuit 5 connects, 4 feet and single-pole double throw of 5 foot IC seats 2 after the conversion of single pole double throw analog switch II
The ends D1 of analog switch II connect, and 3 feet of 5 foot IC seats 2 are connect with the ends D2 of single pole double throw analog switch II, and the 5 of 5 foot IC seats 2
Foot is connect with the ends S2A of single pole double throw analog switch III, is detected chip and is in constant current state;
If being detected chip normal work, 5 output duty cycle of pulse-width modulation circuit gradually rise pwm signal pass through it is tested
Surveying chip conversion makes LED1, LED2 light emitting diode both end voltage in booster circuit 8 gradually rise, to make LED1, LED2 send out
The brightness of optical diode gradually increases;If detected chip is faulty, 5 output duty cycle of pulse-width modulation circuit gradually rises
The voltage that pwm signal cannot control LED1, LED2 light emitting diode both end voltage in booster circuit 8 by being detected chip becomes
Change, LED1, LED2 light emitting diode both ends are in a steady state value, i.e. the brightness of LED1 light emitting diodes is constant or LED1 shines
Diode does not shine.
If F, detected chip is 8 foot constant-pressure type Buck-Boost integrated voltage-stabilized chips, by lower switch K3, switch K1,
K2, K4 are failure to actuate, and NOT gate N1, N2, N3, N4 export high level, high level, low level, high level signal, four inputs and door respectively
F1, F2, F3, F4 export low level signal or door M1, M2 export low level signal respectively, by single pole double throw analog switch I
Into low level signal, 1 foot of 8 foot IC seats 1 connects with the output end of pulse-width modulation circuit 5 for 7 feet of 8 foot IC seats 1 and 8 feet after converting
It connecing, 2 feet of 8 foot IC seats 1 are connect with the ends D1 of single pole double throw analog switch II after the conversion of single pole double throw analog switch II, and 8
5 feet and 6 feet of foot IC seats 1 are connect with the ends D2 of single pole double throw analog switch II, and 3 feet of 8 foot IC seats 1 are opened with single pole double throw analog
The ends the S2B connection for closing III, is detected chip and is in pressure constant state;
If being detected chip normal work, 5 output duty cycle of pulse-width modulation circuit gradually rise pwm signal pass through it is tested
Surveying chip conversion makes LED1 light emitting diodes both end voltage in booster circuit 8 gradually rise, to make LED1 light emitting diodes
Brightness gradually increases;If detected chip is faulty, 5 output duty cycle of pulse-width modulation circuit gradually rises pwm signal and passes through
Detected chip cannot control the voltage change of LED1 light emitting diodes both end voltage in booster circuit 8, LED1 light emitting diodes
Both ends are in a steady state value, i.e. the brightness of LED1 light emitting diodes is constant or LED1 light emitting diodes do not shine.
If G, detected chip is 8 foot constant-current type Buck-Boost integrated voltage-stabilized chips, by lower switch K4, switch K1,
K2, K3 are failure to actuate, and NOT gate N1, N2, N3, N4 export high level, high level, high level, low level signal, four inputs and door respectively
F1, F2, F3, F4 export low level, low level, low level, high level signal or door M1, M2 and export low level, height respectively respectively
Level signal, after single pole double throw analog switch I is converted 7 feet of 8 foot IC seats 1 and 8 feet into low level signal, 8 foot IC seats 1
1 foot is connect with the output end of pulse-width modulation circuit 5,2 feet and list of 8 foot IC seats 1 after the conversion of single pole double throw analog switch II
The ends D1 of dpdt double-pole double-throw (DPDT) analog switch II connect, and 5 feet and 6 feet of 8 foot IC seats 1 are connect with the ends D2 of single pole double throw analog switch II, and 8
3 feet of foot IC seats 1 are connect with the ends S2A of single pole double throw analog switch III, are detected chip and are in constant current state;
If being detected chip normal work, 5 output duty cycle of pulse-width modulation circuit gradually rise pwm signal pass through it is tested
Surveying chip conversion makes LED1, LED2 light emitting diode both end voltage in booster circuit 8 gradually rise, to make LED1, LED2 send out
The brightness of optical diode gradually increases;If detected chip is faulty, 5 output duty cycle of pulse-width modulation circuit gradually rises
The voltage that pwm signal cannot control LED1, LED2 light emitting diode both end voltage in booster circuit 8 by being detected chip becomes
Change, LED1, LED2 light emitting diode both ends are in a steady state value, i.e. the brightness of LED1 light emitting diodes is constant or LED1 shines
Diode does not shine.
I, detection finishes, and closes power supply.
Specific embodiment of the utility model is explained in detail above in conjunction with attached drawing, but the utility model and unlimited
In above-described embodiment, within the knowledge of a person skilled in the art, the utility model can also not departed from
Various changes can be made under the premise of objective.
Claims (5)
1. a kind of fine or not detection device of Buck-Boost integrated voltage-stabilized chips, it is characterised in that:Including IC, 8 foot(1), 5 feet
IC(2), multi-resonant oscillating circuit(3), X9C102 digital regulation resistances(4), pulse-width modulation circuit(5), Combinational Logic Control circuit
(6), port switching circuit(7), booster circuit(8);8 IC, feet(1), IC, 5 foot(2)With port switching circuit(7)It is connected,
Port switching circuit(7)Respectively with pulse-width modulation circuit(5), Combinational Logic Control circuit(6), booster circuit(8)Connection, multi resonant
Oscillating circuit(3)Pass through X9C102 digital regulation resistances(4)With pulse-width modulation circuit(5)Connection;
The Combinational Logic Control circuit(6)Including switch K1, K2, K3, K4, resistance R5, R6, R7, R8, NOT gate N1, N2, N3,
N4, four inputs and door F1, F2, F3, F4 or door M1, M2;One end of described switch K1, K2, K3, K4 connect with+5V power ends simultaneously
It connects, the other end of switch K1, K2, K3, K4 respectively connected the input terminal of NOT gate N1, N2, N3, N4, NOT gate N1, N2, N3, N4's
Input terminal is grounded by resistance R5, R6, R7, R8 respectively, and the input terminal of NOT gate N1, N4 input the input terminal with door F1 with four respectively
A1, four inputs are connect with the input terminal D4 of door F4, the input terminal of NOT gate N2 and meanwhile be connected to four inputs and door F2 input terminal B2,
Four inputs are connect with the input terminal B3 of door F3, and the output end of NOT gate N1 is connected to the input terminal A2 of four inputs and door F2, four simultaneously
Input and the input terminal A3 of door F3, the input terminal A4 of four inputs and door F4, the output end of NOT gate N2 be connected to simultaneously four inputs with
The output end of the input terminal B1 of door F1, four inputs and the input terminal B4 of door F4, NOT gate N3 are connected to four inputs and door F1's simultaneously
Input terminal C1, the input terminal C2 of four inputs and door F2, four inputs and the input terminal C3 of door F3, the input terminal of four inputs and door F4
The output end of C4, NOT gate N4 is connected to the input terminal D1 of four inputs and door F1, four inputs and the input terminal D2 of door F2, four defeated simultaneously
Enter the input terminal D3 with door F3, four inputs and output end Y1, Y2 of door F1, F2 respectively with or two input terminals of door M1 connect,
Four inputs and output end Y3, Y4 of door F3, F4 respectively with or two input terminals of door M2 connect.
2. the fine or not detection device of Buck-Boost integrated voltage-stabilized chips according to claim 1, it is characterised in that:It is described
Multi-resonant oscillating circuit(3)Including 555 time-base integrated circuits(9), resistance R1, R2, diode D1, D2, capacitance C1, C2;Described 555
Time-base integrated circuit(9)The ends RD and the ends VCC simultaneously connect with+5V power ends, 555 time-base integrated circuits(9)The ends RD pass through
Resistance R1 is connect with its end VOD, 555 time-base integrated circuits(9)The ends VOD sun with one end and diode D1 of resistance R2 simultaneously
Pole connects, the cathode of diode D1 simultaneously with 555 time-base integrated circuits(9)The ends TH, the ends TR, diode D2 anode connection,
The cathode of diode D2 is connect with the other end of resistance R2,555 time-base integrated circuits(9)The ends TR, the ends VCO pass through capacitance respectively
C1, C2 are grounded after being connect with its end GND, 555 time-base integrated circuits(9)The ends VO work as circuit as multi-resonant(3)Output end;
555 time-base integrated circuit(9)Output end and X9C102 digital regulation resistances(4)INC ' end connection, X9C102 numbers
Word potentiometer(4)The ends U/D ', the ends VL/RL, the ends VSS connection after be grounded;X9C102 digital regulation resistances(4)The ends VH/RH and VCC
It is connect with+5V power ends after the connection of end, the ends CS ' ground connection.
3. the fine or not detection device of Buck-Boost integrated voltage-stabilized chips according to claim 2, it is characterised in that:It is described
Pulse-width modulation circuit(5)Including TL494 chips(10), resistance R3, R4, capacitance C3, potentiometer RW;The TL494 chips(10)
The ends FB and X9C102 digital regulation resistances(4)The ends VW/RW connection, TL494 chips(10)The ends 2IN+, the ends 1IN+, the ends GND connect
It is grounded after connecing, TL494 chips(10)The end DTC, CT, RT pass through resistance R3, capacitance C3, potentiometer RW ground connection, TL494 cores respectively
Piece(10)1IN- connect with 2IN- after connect with its end REF and the ends OC by resistance R4, the ends VCC and+15V power ends connect
It connects, the ends E1 are grounded after being connect with the ends E2, TL494 chips(10)The ends C1 as pulse-width modulation circuit(5)Output end.
4. the fine or not detection device of Buck-Boost integrated voltage-stabilized chips according to claim 3, it is characterised in that:It is described
Port switching circuit(7)It is mono- including ADG884 single pole double throw analogs switch I, ADG884 single pole double throw analogs switch II, ADG884
Dpdt double-pole double-throw (DPDT) analog switch III;
IC, 5 foot(2)1 foot, 2 feet, 3 feet, 4 feet, 5 feet respectively with the ends S1A of ADG884 single pole double throw analogs switch I,
The ends S2A, the ends S2A of ADG884 single pole double throw analogs switch II, the ends S1A, ADG884 single pole double throw analogs switch III the ends S1A connect
It connects;
IC, 8 foot(1)1 foot, 2 feet, 3 feet it is mono- with the ends S2B of ADG884 single pole double throw analogs switch I, ADG884 respectively
The ends S1B of dpdt double-pole double-throw (DPDT) analog switch II, the ends the S1B connection of ADG884 single pole double throw analogs switch III, ADG884 single-pole double throw moulds
The ends IN1 of quasi- switch I, the ends IN2, the ends IN1 of ADG884 single pole double throw analogs switch II, the ends IN2, ADG884 single pole double throw analogs
The ends IN1 of switch III simultaneously with or the output end of door M1 connect, the ends IN2 of ADG884 single pole double throw analogs switch III and or door M2
Output end connection, the ends D1 of ADG884 single pole double throw analogs switch I are grounded, the ends D2 of ADG884 single pole double throw analogs switch I
With pulse-width modulation circuit(5)Output end connection, the ends D1 of ADG884 single pole double throw analogs switch III connect with its end D2 ,+15V
The ends D1 of its forward end and ADG884 single pole double throw analogs switch I connect after passing sequentially through capacitance C5, C4 filtering between power end and ground
It connects.
5. the fine or not detection device of Buck-Boost integrated voltage-stabilized chips according to claim 4, it is characterised in that:It is described
Booster circuit(8)Including inductance L1, L2, capacitance C4, C5, C6, C7, C8, resistance 9, R10, R11, R12, R13, diode D3, steady
Press diode DZ1, LED1 light emitting diode, LED2 light emitting diodes;The ends D1 of the ADG884 single pole double throw analogs switch I are logical
It crosses inductance L1 to connect with its end D2, the ends D2 of ADG884 single pole double throw analogs switch I are connect with the anode of capacitance C6, capacitance C6's
Cathode is connect with the anode of one end of inductance L2, diode D3 simultaneously, the other end ground connection of inductance L2, the cathode of diode D3
Its anode is connect by resistance R9 with the anode of LED1 light emitting diodes after shunt capacitance C7, C8 is filtered successively between ground, LED1
The minus earth of light emitting diode;The cathode of diode D3 simultaneously with one end of resistance R10, zener diode DZ1 cathode,
The anode of LED2 light emitting diodes connects, and the other end of resistance R10 connects with the ends S2B of ADG884 single pole double throw analogs switch III
It connects, the ends S2B of ADG884 single pole double throw analogs switch III are grounded by resistance R11, the anode and ADG884 of zener diode DZ1
The ends S2A of single pole double throw analog switch III connect, the ends S2A of ADG884 single pole double throw analogs switch III by resistance R12 and
The cathode of LED2 Light-Emitting Diodes connects, and the cathode of LED2 Light-Emitting Diodes is grounded by resistance R13.
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