CN209059182U - A kind of pedestal of ED detection device - Google Patents
A kind of pedestal of ED detection device Download PDFInfo
- Publication number
- CN209059182U CN209059182U CN201821483477.XU CN201821483477U CN209059182U CN 209059182 U CN209059182 U CN 209059182U CN 201821483477 U CN201821483477 U CN 201821483477U CN 209059182 U CN209059182 U CN 209059182U
- Authority
- CN
- China
- Prior art keywords
- interface
- capacitor
- connect
- power supply
- detection device
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Charge And Discharge Circuits For Batteries Or The Like (AREA)
Abstract
The utility model provides a kind of pedestal of ED detection device, including circumscribed USB power supply module, charging circuit, power supply circuit and microprocessing unit;Circumscribed USB power supply module and power supply circuit are connect with the microprocessing unit, and the power supply circuit and the charging circuit are also connect with the circumscribed USB power supply module;Power supply circuit is used to power for microprocessing unit, and the charging circuit is used to connect the rechargeable battery of ED detection device, and microprocessing unit is for controlling circumscribed USB power supply module as the charging of ED detection device;The pedestal can charge to ED detection device, and the piece volumes of modules are smaller, and peripheral circuit is simple, so that whole pedestal is smaller, it is user-friendly.
Description
Technical field
The utility model relates to the field of medical instrument technology more particularly to a kind of pedestals of ED detection device.
Background technique
The RigiScan rigiscan of TIM company, the U.S., its controller are a movable data carriers, he
It can test and record the hardness and swelling degree of penis.He is connected by cable computer compatible with IBM, downloading data, stores number
According to.Monitoring device volume at this stage is excessive, and subsidiary many conducting wires, and coil, electrode, the data after detecting are using envelope
The transmission mode of enclosed, it has not been convenient to use.
Utility model content
The purpose of this utility model is that proposing a kind of pedestal of ED detection device, ED detection device can be filled
Data Concurrent that is electric and can receiving ED detection device is sent to mobile device or server.
A kind of pedestal of ED detection device, including circumscribed USB power supply module, charging circuit, power supply circuit and micro process
Unit;
Circumscribed USB power supply module and power supply circuit are connect with the microprocessing unit, the power supply circuit and described are filled
Circuit is also connect with the circumscribed USB power supply module;
Power supply circuit is used to power for microprocessing unit, and the charging circuit is used to connect the charging electricity of ED detection device
Pond, microprocessing unit is for controlling circumscribed USB power supply module as the charging of ED detection device.
Further, the microprocessing unit includes CC2541 microprocessor.
Further, the circumscribed USB power supply module includes MICRO-USB-SP chip, the MICRO-USB-SP chip
Including VBUS interface, D+ interface, D- interface, ID interface, the first GND interface, S1 interface and S4 interface;
The S1 interface, S4 interface and the first GND interfacing ground;
The CC2541 microprocessor includes P2_1/DD interface, P2_2/DC interface and RESET_N interface, the P2_
1/DD interface is connect with the D+ interface, and the P2_2/DC interface is connect with the D- interface, the RESET_N interface and institute
State the connection of ID interface;
The VBUS interface is connect with the power supply circuit and charging circuit.
Further, the power supply circuit includes XC6206P332MR-G chip, first capacitor, the second capacitor, third electricity
Appearance and the 4th capacitor;
The XC6206P332MR-G chip includes VIN interface, VOUT interface and the 2nd GND interface, the 2nd GND
Interfacing ground;
One end of the first capacitor is connect with the VIN interface and VBUS interface, other end ground connection;
One end of second capacitor is connect with the VIN interface, other end ground connection;
One end of the third capacitor is connect with the VOUT interface, other end ground connection;
One end of 4th capacitor connect with the VOUT interface and draws 3.3V voltage output end, the 4th capacitor it is another
One end ground connection.
Further, the CC2541 microprocessor further includes DVDD1 interface, DVDD2 interface, AVDD1 interface, AVDD2
Interface, AVDD3 interface, AVDD4 interface, AVDD5 interface and AVDD6 interface;
The DVDD1 interface, DVDD2 interface, AVDD1 interface, AVDD2 interface, AVDD3 interface, AVDD4 interface, AVDD5
Interface and AVDD6 interface are connect with the 3.3V voltage output end.
Further, the charging circuit includes ME4050 chip, first resistor, second resistance, the 5th capacitor and hair
Optical diode;
The ME4050 chip includes CHRO interface, BAT interface, VCC interface, PROG interface and the 3rd GND interface;
One end of the first resistor is connect with the 3.3V voltage output end, and the other end of first resistor shines with described
One end of diode connects, and the other end of the light emitting diode is connect with the CHRO interface;
The BAT interface is connect with rechargeable battery, for providing 4.2V charge power supply as rechargeable battery charging;
The VCC interface is connect with the VBUS interface;
One end of 5th capacitor is connect with the VCC interface, other end ground connection;
One end of the second resistance is connect with the PROG interface, other end ground connection.
Further, the pedestal further includes display unit, and the display unit is connect with the CC2541 microprocessor.
Further, the display unit include the first RGB status lamp, the 2nd RGB status lamp, the 3rd RGB status lamp with
And the 4th RGB status lamp;
The CC2541 microprocessor further includes PL_1 interface, PL_3 interface and PL_5 interface;
The first RGB status lamp, the 2nd RGB status lamp, the 3rd RGB status lamp and the 4th RGB status lamp are in parallel, and
It is connect with the PL_1 interface, PL_3 interface and PL_5 interface.
Further, the microprocessing unit further includes the 6th capacitor, the 7th capacitor, the 8th capacitor, the 9th capacitor, the tenth
Capacitor, the 11st capacitor, the 12nd capacitor, the 13rd capacitor, the 14th capacitor, the 15th capacitor, 3rd resistor, the 4th electricity
Resistance, the first inductance, the second inductance, third inductance, the 4th inductance, the first resonator, the second resonator and transmitting antenna interface;
4th resistance is connect with the 2nd RGB status lamp;
The CC2541 microprocessor further includes the 3rd GND interface, DCOUPL interface, P2_3/OSC32KQ2 interface, P2_
4/OSC32KQ1 interface, R_BLAS interface, RF_N interface, RF_P interface, XOSC_Q2 interface and XOSC_Q1 interface;
One end of first resonator is connected with the P2_3/OSC32KQ2 interface, the other end and the P2_4/
The connection of OSC32KQ1 interface;
One end of 6th capacitor and one end of the 7th capacitor are connect with the both ends of first resonator respectively, and the 6th
The other end of the other end of capacitor and the 7th capacitor ground connection;
One end of 8th capacitor is connect with the DCOUPL interface, other end ground connection;
One end of the 3rd resistor is connect with the R_BLAS interface, other end ground connection;
Connect respectively with the XOSC_Q2 interface and XOSC_Q1 interface after 14th capacitor, the 15th capacitor are in parallel
Connect, second resonator include the first connecting pin, second connection end, third connecting pin and the 4th connecting pin, described first
Connecting pin and third connecting pin are connect with the XOSC_Q2 interface and XOSC_Q1 interface respectively, the second connection end and the 4th
Connecting pin ground connection;
One end of tenth capacitor is connect with the RF_N interface, the other end of the tenth capacitor and the 11st capacitor
One end connection, one end of the 12nd capacitor connect with the RF_P interface, the other end of the 12nd capacitor and described the
One end connection of four inductance, the other end of the 11st capacitor and the other end of the 4th inductance and the third inductance
One end connection, the other end of the third inductance are connect with one end of first inductance, and the other end of the first inductance connects hair
Penetrate antennal interface;
One end of 9th capacitor is connected between first inductance and third inductance, other end ground connection;
One end of second inductance is connected between the tenth capacitor and the 11st capacitor, other end ground connection;
One end of 13rd capacitor is connected between the 12nd capacitor and the 4th inductance, other end ground connection.
Further, the CC2541 microprocessor further includes P0_2 interface and P0_3 interface, is used for and ED detection device
Connection carries out data transmission.
The pedestal of ED detection device provided by the utility model can carry out ED detection device to charge and can receive ED
The Data Concurrent of detection device is sent to mobile device or server, and the piece volumes of modules are smaller, and peripheral circuit is simple,
So that whole pedestal is smaller, it is user-friendly.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram of embodiment of pedestal of ED detection device provided by the utility model.
Fig. 2 is a kind of structural schematic diagram of embodiment of microprocessing unit in ED detection device provided by the utility model.
Fig. 3 is a kind of structural representation of embodiment of circumscribed USB power supply module in ED detection device provided by the utility model
Figure.
Fig. 4 is a kind of structural schematic diagram of embodiment of power supply circuit in ED detection device provided by the utility model.
Fig. 5 is a kind of structural schematic diagram of embodiment of charging circuit in ED detection device provided by the utility model.
Specific embodiment
To keep the purpose of this utility model, technical solution and effect clearer, clear, develop simultaneously implementation referring to the drawings
The utility model is further described in example.It should be appreciated that specific embodiment described herein is only practical to explain
It is novel, it is not used to limit the utility model.
With reference to Fig. 1, the present embodiment provides a kind of pedestals of ED detection device, including circumscribed USB power supply module 101, charging
Circuit 102, power supply circuit 103 and microprocessing unit 104;
Circumscribed USB power supply module 101 and power supply circuit 103 are connect with microprocessing unit 104, power supply circuit 103 and are filled
Circuit 102 is also connect with circumscribed USB power supply module 101;
Power supply circuit 103 is used to power for microprocessing unit 104, and the charging circuit 102 is for connecting ED detection device
Rechargeable battery, microprocessing unit 104 for control circumscribed USB power supply module 101 be ED detection device charge.
Circumscribed USB power supply module circumscribed USB power supply, provides 5V voltage signal, and power supply circuit 103 is converted into 3.3V electricity
Press signal for the power supply of microprocessing unit 104, charging circuit 102 is converted into 4.2V voltage signal as rechargeable battery charging.
As a preferred embodiment, microprocessing unit 104 includes CC2541 microprocessor with reference to Fig. 2.
Referring to figs. 2 and 3, circumscribed USB power supply module 101 includes MICRO-USB-SP chip, MICRO-USB-SP chip
Including VBUS interface, D+ interface, D- interface, ID interface, the first GND interface, S1 interface and S4 interface;
S1 interface, S4 interface and the first GND interfacing ground;
CC2541 microprocessor includes that P2_1/DD interface, P2_2/DC interface and RESET_N interface state P2_1/DD interface
It is connect with D+ interface, P2_2/DC interface is connect with the D- interface, and the RESET_N interface is connect with the ID interface;
VBUS interface is connect with the power supply circuit and charging circuit.
VBUS interface is for providing 5V voltage signal.
Further, with reference to Fig. 4, power supply circuit 103 includes XC6206P332MR-G chip, first capacitor C1, the second electricity
Hold C2, third capacitor C3 and the 4th capacitor C4;
XC6206P332MR-G chip includes VIN interface, VOUT interface and the 2nd GND interface, and the 2nd GND interface connects
Ground;
One end of first capacitor C1 is connect with VIN interface and VBUS interface, other end ground connection;
One end of second capacitor C2 is connect with VIN interface, other end ground connection;
One end of third capacitor C3 is connect with VOUT interface, other end ground connection;
One end of 4th capacitor C4 connect with VOUT interface and draws 3.3V voltage output end, the other end of the 4th capacitor C4
Ground connection.
The capacitance that the capacitance of first capacitor C1 is 10 μ F, the second capacitor C2 is 1.0 μ F, and the capacitance of third capacitor C3 is 1.0 μ
The capacitance of F, the 4th capacitor C4 are 10 μ F.
Further, with reference to Fig. 2, CC2541 microprocessor further include DVDD1 interface, DVDD2 interface, AVDD1 interface,
AVDD2 interface, AVDD3 interface, AVDD4 interface, AVDD5 interface and AVDD6 interface;
DVDD1 interface, DVDD2 interface, AVDD1 interface, AVDD2 interface, AVDD3 interface, AVDD4 interface, AVDD5 interface
And AVDD6 interface is connect with 3.3V voltage output end.
Further, with reference to Fig. 5, charging circuit 102 includes ME4050 chip, first resistor R1, second resistance R2, the 5th
Capacitor C5 and Light-emitting diode LED;
ME4050 chip includes CHRO interface, BAT interface, VCC interface, PROG interface and the 3rd GND interface;
One end of first resistor R1 is connect with 3.3V voltage output end, the other end and light emitting diode D of first resistor R1
One end connection, the other end of Light-emitting diode LED connect with CHRO interface;
BAT interface is connect with rechargeable battery, for providing 4.2V charge power supply as rechargeable battery charging;
VCC interface is connect with VBUS interface;
One end of 5th capacitor C5 is connect with the VCC interface, other end ground connection;
One end of second resistance R2 is connect with the PROG interface, other end ground connection.
Light-emitting diode LED is used to show the working condition of charging circuit.
The capacitance of 5th capacitor C5 is 1.0 μ F, and the resistance value of first resistor R1 is the Europe 1K, and the resistance value of second resistance R2 is 30K
Europe.
Further, with reference to Fig. 2, pedestal provided in this embodiment further includes display unit, the display unit with
The connection of CC2541 microprocessor.
Display unit includes the first RGB status lamp DS1, the 2nd RGB status lamp DS2, the 3rd RGB status lamp DS3 and the
Four RGB status lamp DS4;
CC2541 microprocessor further includes PL_1 interface, PL_3 interface and PL_5 interface;
First RGB status lamp DS1, the 2nd RGB status lamp DS2, the 3rd RGB status lamp DS3 and the 4th RGB status lamp
DS4 is in parallel, and connect with PL_1 interface, PL_3 interface and PL_5 interface.
Further, microprocessing unit further includes its peripheral circuit, and peripheral circuit includes the 6th capacitor C6, the 7th capacitor
C7, the 8th capacitor C8, the 9th capacitor C9, the tenth capacitor C10, the 11st capacitor C11, the 12nd capacitor C12, the 13rd capacitor
C13, the 14th capacitor C14, the 15th capacitor C15,3rd resistor R3, the 4th resistance R4, the first inductance L1, the second inductance L2,
Third inductance L3, the 4th inductance L4, the first resonator Y1, the second resonator Y2 and transmitting antenna interface antennal;
4th resistance R4 is connect with the 2nd RGB status lamp DS2;
CC2541 microprocessor further includes the 3rd GND interface, DCOUPL interface, P2_3/OSC32KQ2 interface, P2_4/
OSC32KQ1 interface, R_BLAS interface, RF_N interface, RF_P interface, XOSC_Q2 interface and XOSC_Q1 interface;
One end of first resonator Y1 is connected with the P2_3/OSC32KQ2 interface, the other end and the P2_4/
The connection of OSC32KQ1 interface;
One end of 6th capacitor C6 and one end of the 7th capacitor C7 are connect with the both ends of the first resonator Y1 respectively, the 6th electricity
Hold the other end of C6 and the other end ground connection of the 7th capacitor C7;
One end of 8th capacitor C8 is connect with DCOUPL interface, other end ground connection;
One end of 3rd resistor R3 is connect with R_BLAS interface, other end ground connection;
It is connect respectively with XOSC_Q2 interface and XOSC_Q1 interface after 14th capacitor C14, the 15th capacitor C15 are in parallel,
Second resonator Y2 includes the first connecting pin 1, second connection end 2, third connecting pin 3 and the 4th connecting pin 4, the first connecting pin
1 and third connecting pin 3 connect respectively with XOSC_Q2 interface and XOSC_Q1 interface, second connection end 2 and the 4th connecting pin 4 connect
Ground;
One end of tenth capacitor C10 is connect with RF_N interface, the other end of the tenth capacitor C10 and the 11st capacitor C11's
One end connection, one end of the 12nd capacitor C12 are connect with RF_P interface, the other end and the 4th inductance L4 of the 12nd capacitor C12
One end connection, the other end of the 11st capacitor C11 and the other end of the 4th inductance L4 connect with one end of third inductance L3, the
The other end of three inductance L3 is connect with one end of the first inductance L1, and the other end of the first inductance L1 connects transmitting antenna interface;
One end of 9th capacitor C9 is connected between the first inductance L1 and third inductance L3, other end ground connection;
One end of second inductance L2 is connected between the tenth capacitor C10 and the 11st capacitor C11, other end ground connection;
One end of 13rd capacitor C13 is connected between the 12nd capacitor C12 and the 4th inductance L4, other end ground connection.
The capacitance of 6th capacitor C6 is 12pF, and the capacitance of the 7th capacitor C7 is 12pF, and the capacitance of the 8th capacitor C8 is 1.0 μ
The capacitance of F, the 9th capacitor C9 are 1pF, and the capacitance of the tenth capacitor C10 is 18pF, and the capacitance of the 11st capacitor C11 is 1pF, the tenth
The capacitance of two capacitor C12 is 18pF, and the capacitance of the 13rd capacitor C13 is 1pF, and the capacitance of the 14th capacitor C14 is 12pF, the tenth
The capacitance of five capacitor C15 is 12pF, and the resistance value of 3rd resistor R3 is the Europe 56K, and the resistance value of the 4th resistance R4 is the Europe 1k, the first inductance
The inductance value of L1 is 1nH, and the inductance value of the second inductance L2 is 1nH, and the inductance value of third inductance L3 is 1nH, the 4th inductance L4's
Inductance value is 2nH, and the resonance frequency of the first resonator Y1 is 32,678KHz, and the resonance frequency of the second resonator Y2 is 32MHz.
Further, CC2541 microprocessor further includes P0_2 interface and P0_3 interface, for connecting with ED detection device
Carry out data transmission, the data of ED detection device acquisition can be transmitted to CC2541 micro process by P0_2 interface and P0_3 interface
Device, then server or mobile device are transmitted to by transmitting antenna.
First RGB status lamp DS1, the 2nd RGB status lamp DS2, the 3rd RGB status lamp DS3 and the 4th RGB status lamp
DS4 is normally then flashed for showing with the connection status of ED detection device, connection, and malunion Chang Ze is displayed in red always.
The pedestal of ED detection device provided in this embodiment can carry out ED detection device to charge and can receive ED inspection
The Data Concurrent for surveying device is sent to mobile device or server, and the piece volumes of modules are smaller, and peripheral circuit is simple, make
It is smaller to obtain whole pedestal, it is user-friendly.
It should be understood that for those of ordinary skills, it can be modified or changed according to the above description,
And all these modifications and variations all should belong to the protection scope of the appended claims for the utility model.
Claims (10)
1. a kind of pedestal of ED detection device, which is characterized in that including circumscribed USB power supply module, charging circuit, power supply circuit with
And microprocessing unit;
The circumscribed USB power supply module and power supply circuit are connect with the microprocessing unit, the power supply circuit and described are filled
Circuit is also connect with the circumscribed USB power supply module;
Power supply circuit is used to power for microprocessing unit, and the charging circuit is used to connect the rechargeable battery of ED detection device, micro-
Processing unit is for controlling circumscribed USB power supply module as the charging of ED detection device.
2. the pedestal of ED detection device according to claim 1, which is characterized in that the microprocessing unit includes CC2541
Microprocessor.
3. the pedestal of ED detection device according to claim 2, which is characterized in that the circumscribed USB power supply module includes
MICRO-USB-SP chip, the MICRO-USB-SP chip include VBUS interface, D+ interface, D- interface, ID interface, first
GND interface, S1 interface and S4 interface;
The S1 interface, S4 interface and the first GND interfacing ground;
The CC2541 microprocessor includes P2_1/DD interface, P2_2/DC interface and RESET_N interface, the P2_1/DD
Interface is connect with the D+ interface, and the P2_2/DC interface is connect with the D- interface, the RESET_N interface and the ID
Interface connection;
The VBUS interface is connect with the power supply circuit and charging circuit.
4. the pedestal of ED detection device according to claim 3, which is characterized in that the power supply circuit includes
XC6206P332MR-G chip, first capacitor, the second capacitor, third capacitor and the 4th capacitor;
The XC6206P332MR-G chip includes VIN interface, VOUT interface and the 2nd GND interface, the 2nd GND interface
Ground connection;
One end of the first capacitor is connect with the VIN interface and VBUS interface, other end ground connection;
One end of second capacitor is connect with the VIN interface, other end ground connection;
One end of the third capacitor is connect with the VOUT interface, other end ground connection;
One end of 4th capacitor connect with the VOUT interface and draws 3.3V voltage output end, the other end of the 4th capacitor
Ground connection.
5. the pedestal of ED detection device according to claim 4, which is characterized in that the CC2541 microprocessor further includes
DVDD1 interface, DVDD2 interface, AVDD1 interface, AVDD2 interface, AVDD3 interface, AVDD4 interface, AVDD5 interface and
AVDD6 interface;
The DVDD1 interface, DVDD2 interface, AVDD1 interface, AVDD2 interface, AVDD3 interface, AVDD4 interface, AVDD5 interface
And AVDD6 interface is connect with the 3.3V voltage output end.
6. the pedestal of ED detection device according to claim 5, which is characterized in that the charging circuit includes ME4050 core
Piece, first resistor, second resistance, the 5th capacitor and light emitting diode;
The ME4050 chip includes CHRO interface, BAT interface, VCC interface, PROG interface and the 3rd GND interface;
One end of the first resistor is connect with the 3.3V voltage output end, the other end of first resistor and the light-emitting diodes
One end of pipe connects, and the other end of the light emitting diode is connect with the CHRO interface;
The BAT interface is connect with rechargeable battery, for providing 4.2V charge power supply as rechargeable battery charging;
The VCC interface is connect with the VBUS interface;
One end of 5th capacitor is connect with the VCC interface, other end ground connection;
One end of the second resistance is connect with the PROG interface, other end ground connection.
7. the pedestal of ED detection device according to claim 6, which is characterized in that the pedestal further includes display unit,
The display unit is connect with the CC2541 microprocessor.
8. the pedestal of ED detection device according to claim 7, which is characterized in that the display unit includes the first RGB
Status lamp, the 2nd RGB status lamp, the 3rd RGB status lamp and the 4th RGB status lamp;
The CC2541 microprocessor further includes PL_1 interface, PL_3 interface and PL_5 interface;
The first RGB status lamp, the 2nd RGB status lamp, the 3rd RGB status lamp and the 4th RGB status lamp are in parallel, and with institute
State PL_1 interface, PL_3 interface and the connection of PL_5 interface.
9. the pedestal of ED detection device according to claim 8, which is characterized in that the microprocessing unit further includes the 6th
Capacitor, the 7th capacitor, the 8th capacitor, the 9th capacitor, the tenth capacitor, the 11st capacitor, the 12nd capacitor, the 13rd capacitor,
14 capacitors, the 15th capacitor, 3rd resistor, the 4th resistance, the first inductance, the second inductance, third inductance, the 4th inductance,
One resonator, the second resonator and transmitting antenna interface;
4th resistance is connect with the second status lamp DS2;
The CC2541 microprocessor further includes the 3rd GND interface, DCOUPL interface, P2_3/OSC32KQ2 interface, P2_4/
OSC32KQ1 interface, R_BLAS interface, RF_N interface, RF_P interface, XOSC_Q2 interface and XOSC_Q1 interface;
One end of first resonator is connected with the P2_3/OSC32KQ2 interface, the other end and the P2_4/OSC32KQ1
Interface connection;
One end of 6th capacitor and one end of the 7th capacitor are connect with the both ends of first resonator respectively, the 6th capacitor
The other end and the 7th capacitor the other end ground connection;
One end of 8th capacitor is connect with the DCOUPL interface, other end ground connection;
One end of the 3rd resistor is connect with the R_BLAS interface, other end ground connection;
It is connect respectively with the XOSC_Q2 interface and XOSC_Q1 interface after 14th capacitor, the 15th capacitor are in parallel, institute
Stating the second resonator includes the first connecting pin, second connection end, third connecting pin and the 4th connecting pin, first connecting pin
It is connect respectively with the XOSC_Q2 interface and XOSC_Q1 interface with third connecting pin, the second connection end and the 4th connecting pin
Ground connection;
One end of tenth capacitor is connect with the RF_N interface, and the one of the other end of the tenth capacitor and the 11st capacitor
End connection, one end of the 12nd capacitor are connect with the RF_P interface, the other end of the 12nd capacitor and the 4th electricity
One end of sense connects, one end of the other end of the 11st capacitor and the other end of the 4th inductance and the third inductance
Connection, the other end of the third inductance are connect with one end of first inductance, the other end connection transmitting day of the first inductance
Line interface;
One end of 9th capacitor is connected between first inductance and third inductance, other end ground connection;
One end of second inductance is connected between the tenth capacitor and the 11st capacitor, other end ground connection;
One end of 13rd capacitor is connected between the 12nd capacitor and the 4th inductance, other end ground connection.
10. the pedestal of ED detection device according to claim 9, which is characterized in that the CC2541 microprocessor also wraps
P0_2 interface and P0_3 interface are included, is carried out data transmission for being connect with ED detection device.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201821483477.XU CN209059182U (en) | 2018-09-11 | 2018-09-11 | A kind of pedestal of ED detection device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201821483477.XU CN209059182U (en) | 2018-09-11 | 2018-09-11 | A kind of pedestal of ED detection device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN209059182U true CN209059182U (en) | 2019-07-05 |
Family
ID=67092260
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201821483477.XU Active CN209059182U (en) | 2018-09-11 | 2018-09-11 | A kind of pedestal of ED detection device |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN209059182U (en) |
-
2018
- 2018-09-11 CN CN201821483477.XU patent/CN209059182U/en active Active
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN206250502U (en) | A kind of smart jack | |
| CN108701073A (en) | A kind of electronic device facilitating debugging, system and method | |
| CN201698606U (en) | Point reading machine | |
| CN104007672A (en) | Vibration rod with pressure control and control system thereof | |
| CN209070957U (en) | A kind of liquid crystal display and its mainboard for driving liquid crystal display panel | |
| CN203278279U (en) | Multifunctional mobile power supply | |
| CN209059182U (en) | A kind of pedestal of ED detection device | |
| CN206819716U (en) | Wireless LED display board | |
| CN204030149U (en) | A kind of remote control insert row | |
| CN212657005U (en) | Fan with display function | |
| CN206698218U (en) | A kind of control circuit of home intelligent health repeater | |
| CN206805993U (en) | The recording instrument without paper shown with backlight drive | |
| CN209059183U (en) | A kind of ED detection device and system | |
| CN201829139U (en) | Portable LED display screen | |
| CN217155180U (en) | Digital electronic detonator electronic control module test circuit | |
| CN205175663U (en) | Optical loss tester | |
| CN205485965U (en) | Take aerial mouse of memory function | |
| CN202636909U (en) | Ear thermometer with wireless data transmission function | |
| CN211183440U (en) | Circuit with synchronous cell-phone electric quantity function of demonstration | |
| CN104317230A (en) | Data acquisition circuit based on PNI magnetic sensor | |
| CN110032107A (en) | The flogic system and control method of 4 road signal on-off are controlled by 3 relays | |
| CN205016167U (en) | A novel monochromatic LED display screen for showing data | |
| CN217689836U (en) | Code scanning system for controller | |
| CN204288201U (en) | Control panel and apparatus for lighting | |
| CN214409998U (en) | Card reader based on wireless transmission system |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| GR01 | Patent grant | ||
| GR01 | Patent grant | ||
| CP02 | Change in the address of a patent holder |
Address after: 518000 floor 102, floor 7, floor 3-7, floor 02,7, Zhongdian Plaza building, No. 2070, Shennan Middle Road, Fuqiang community, Huaqiang North Street, Futian District, Shenzhen, Guangdong Province Patentee after: Haines (Shenzhen) Information Technology Co.,Ltd. Address before: 518000 24L, east block, Changxing Times Square, No. 86 Taoyuan Road, Nantou street, Nanshan District, Shenzhen, Guangdong Patentee before: Haines (Shenzhen) Information Technology Co.,Ltd. |
|
| CP02 | Change in the address of a patent holder |