CN205451043U - Solid state hard drives and have said solid state hard drives's electron device - Google Patents
Solid state hard drives and have said solid state hard drives's electron device Download PDFInfo
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- CN205451043U CN205451043U CN201521124053.0U CN201521124053U CN205451043U CN 205451043 U CN205451043 U CN 205451043U CN 201521124053 U CN201521124053 U CN 201521124053U CN 205451043 U CN205451043 U CN 205451043U
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Abstract
The utility model provides a solid state hard drives, includes a memory cell, a main control unit, a drive unit and a indicating units, memory cell is used for storage data, the main control unit is connected memory cell and be used for and memory cell carries out data transmission, drive unit connects memory cell reaches the main control unit is used for listening memory cell reaches data transmission rate between the main control unit, indicating units is according to the corresponding instruction information of data transmission rate output of difference. The utility model also provides an use solid state hard drives's electron device. Above -mentioned solid state hard drives and having solid state hard drives's electron device passes through indicating units will the data transmission rate of solid state hard drives during operation shows to the person of facilitating the use observes.
Description
Technical field
This utility model relates to a kind of solid state hard disc and has the electronic installation of described solid state hard disc.
Background technology
At present, the solid state hard disc of most of computers is not provided with display lamp to indicate the reading and writing data speed of solid state hard disc.So, the reading and writing data situation that user is current by not getting information about solid state hard disc.
Utility model content
In view of the foregoing, it is necessary to the solid state hard disc that a kind of user of convenience understands reading and writing data speed and the electronic installation with described solid state hard disc are provided.
A kind of solid state hard disc, including a memory element, one main control unit, one driver element and an indicating member, described memory element is used for storing data, described main control unit connects described memory element and for carrying out data transmission with described memory element, described driver element connects described memory element and described main control unit and for detecting the message transmission rate between described memory element and described main control unit, described driver element is according to the control signal of the message transmission rate output correspondence detected, described indicating member connects described driver element and exports the instruction information of correspondence in order to receive the control signal of described driver element output.
Preferably, described memory element includes the first to the 3rd data pin, a power pins and a grounding pin, the power pins of described memory element connects a power supply, the grounding pin ground connection of described memory element, and the first of described memory element is all connected with described main control unit to the 3rd data pin.
Preferably, described main control unit includes the first to the 3rd data pin, a data exchange pin, a data-triggered pin, a control pin, a power pins and a grounding pin, the power pins of described main control unit connects described power supply, the grounding pin ground connection of described main control unit, data exchange pin, data-triggered pin and the control pin of described main control unit are all connected with described driver element, the first of described main control unit connects to the 3rd data pin is corresponding with the first of described memory element to the 3rd data pin respectively, to carry out the transmission of data.
Preferably, described driver element includes the first to the 3rd data pin, one data exchange pin, one data-triggered pin, one controls pin, one first instruction pin, one second instruction pin, one power pins and a grounding pin, the power pins of described driver element connects described power supply, the grounding pin ground connection of described driver element, the first of described driver element connects to the 3rd data pin is corresponding with the first of described memory element to the 3rd data pin respectively, the data exchange pin of described driver element, data-triggered pin and control pin and exchange pin with the data of described main control unit respectively, data-triggered pin and control pin correspondence connect, first instruction pin and the second instruction pin of described driver element are all connected with described indicating member.
Preferably, described indicating member includes the first to the 3rd light emitting diode and the first to the 3rd resistance, the anode of described first light emitting diode is connected with the first instruction pin of described driver element, the negative electrode of described first light emitting diode passes through described first resistance eutral grounding, the anode of described second light emitting diode is connected with the second instruction pin of described driver element, the negative electrode of described second light emitting diode passes through described second resistance eutral grounding, the anode of described 3rd light emitting diode connects described power supply, the minus earth of described 3rd light emitting diode.
Preferably, described driver element controls described first light emitting diode according to message transmission rates different between the described memory element detected and described main control unit and described second light emitting diode alternately flashes with different frequencies.
A kind of electronic installation, including a mainboard and a solid state hard disc, described mainboard connects described solid state hard disc and thinks that described solid state hard disc is powered, described solid state hard disc includes a memory element, one main control unit, one driver element and an indicating member, described memory element is used for storing data, described main control unit connects described memory element and for carrying out data transmission with described memory element, described driver element connects described memory element and described main control unit and for detecting the message transmission rate between described memory element and described main control unit, described driver element is according to the control signal of the message transmission rate output correspondence detected, described indicating member connects described driver element and receives the control signal of described driver element output, described indicating member is always according to the instruction information of the control signal output correspondence received.
Preferably, described memory element includes the first to the 3rd data pin, a power pins and a grounding pin, the power pins of described memory element connects a power supply, the grounding pin ground connection of described memory element, and the first of described memory element is all connected with described main control unit to the 3rd data pin.
Preferably, described main control unit includes the first to the 3rd data pin, a data exchange pin, a data-triggered pin, a control pin, a power pins and a grounding pin, the power pins of described main control unit connects described power supply, the grounding pin ground connection of described main control unit, data exchange pin, data-triggered pin and the control pin of described main control unit are all connected with described driver element, the first of described main control unit connects to the 3rd data pin is corresponding with the first of described memory element to the 3rd data pin respectively, to carry out the transmission of data.
nullPreferably,Described driver element includes the first to the 3rd data pin、One data exchange pin、One data-triggered pin、One controls pin、One first instruction pin、One second instruction pin、One power pins and a grounding pin,Described indicating member includes the first to the 3rd light emitting diode and the first to the 3rd resistance,The power pins of described driver element connects described power supply,The grounding pin ground connection of described driver element,The first of described driver element connects to the 3rd data pin is corresponding with the first of described memory element to the 3rd data pin respectively,The data exchange pin of described driver element、Data-triggered pin and control pin and exchange pin with the data of described main control unit respectively、Data-triggered pin and control pin correspondence connect,First instruction pin and the second instruction pin of described driver element are all connected with described indicating member;The anode of described first light emitting diode is connected with the first instruction pin of described driver element, the negative electrode of described first light emitting diode passes through described first resistance eutral grounding, the anode of described second light emitting diode is connected with the second instruction pin of described driver element, the negative electrode of described second light emitting diode passes through described second resistance eutral grounding, the anode of described 3rd light emitting diode connects described power supply, the minus earth of described 3rd light emitting diode.
Compared to prior art, at above-mentioned solid state hard disc and there is message transmission rate when described solid state hard disc is worked by described indicating member by the electronic installation of described solid state hard disc show, to facilitate user to observe.
Accompanying drawing explanation
Fig. 1 is the block diagram of the better embodiment of this utility model electronic installation.
Fig. 2 is the block diagram of the better embodiment of solid state hard disc in Fig. 1.
Fig. 3 is the circuit diagram of the better embodiment of solid state hard disc in Fig. 1.
Main element symbol description
| Solid state hard disc | 100 |
| Mainboard | 200 |
| Electronic installation | 400 |
| Memory element | 10 |
| Main control unit | 20 |
| Driver element | 30 |
| Indicating member | 40 |
| Light emitting diode | D1-D3 |
| Resistance | R1-R3 |
Following detailed description of the invention will further illustrate this utility model in conjunction with above-mentioned accompanying drawing.
Detailed description of the invention
Refer to Fig. 1 and Fig. 2, this utility model better embodiment provides a kind of solid state hard disc 100, and described solid state hard disc 100 is applied to electronic installation 400(such as a desktop computer or notebook computer).Described solid state hard disc 100 is connected to the mainboard 200 in described electronic installation 400, to carry out data communication with described mainboard 200.In present embodiment, described mainboard 200 provides a 5V power supply to be that described solid state hard disc 100 is powered.
Described solid state hard disc 100 includes memory element 10, main control unit 20, driver element 30 and an indicating member 40.Described memory element 10 is used for storing data, and described main control unit 20 connects described memory element 10, in order to data incoming for described mainboard 200 are write described memory element 20, and data to be sent is spread out of.
Described driver element 30 connects described memory element 10, main control unit 20 and indicating member 40, to detect the message transmission rate between described memory element 10 and described main control unit 20, and export the instruction information of correspondence according to the message transmission rate detected to control described indicating member 40.
Refer to Fig. 3, described memory element 10 includes the first to the 3rd data pin IO1-IO3, power pins VCC and a grounding pin GND.Power pins VCC of described memory element 10 receives the 5V power supply that described mainboard 200 provides, the grounding pin GND ground connection of described memory element 10.
Described main control unit 20 includes the first to the 3rd data pin IO1-IO3, a data exchange pin DAS, a data-triggered pin DSS, a control pin P15, power pins VCC and a grounding pin GND.Power pins VCC of described main control unit 20 receives the 5V power supply that described mainboard 200 provides, the grounding pin GND ground connection of described main control unit 20.First to the 3rd data pin IO1-IO3 of described main control unit 20 is corresponding with the first to the 3rd data pin IO1-IO3 of described memory element 10 respectively to be connected, to carry out the transmission of data.
Described driver element 30 includes the first to the 3rd data pin IO1-IO3, a data exchange pin DAS, a data-triggered pin DSS, a control pin P15, one first instruction pin IO4, one second instruction pin IO5, power pins VCC and a grounding pin GND.Power pins VCC of described driver element 30 receives the 5V power supply that described mainboard 200 provides, the grounding pin GND ground connection of described driver element 30.First to the 3rd data pin IO1-IO3 of described driver element 30 is corresponding with the first to the 3rd data pin IO1-IO3 of described memory element 10 respectively to be connected, and data exchange pin DAS, the data-triggered pin DSS and control pin P15 of described driver element 30 are corresponding with the data of described main control unit 20 exchange pin DAS, data-triggered pin DSS and control pin P15 respectively to be connected.
Described indicating member 40 includes three light emitting diode D1-D3 and three resistance R1-R3.The anode of described light emitting diode D1 is connected with the first instruction pin IO4 of described driver element 30, and the negative electrode of described light emitting diode D1 passes through resistance R1 ground connection.The anode of described light emitting diode D2 is connected with the second instruction pin IO5 of described driver element 30, and the negative electrode of described light emitting diode D2 passes through resistance R2 ground connection.The anode of described light emitting diode D3 connects described 5V power supply, the minus earth of described light emitting diode D3.
When, after described mainboard 200 electrifying startup, described mainboard 200 will provide described 5V voltage to the memory element 10 on described solid state hard disc 100, main control unit 20, driver element 30 and indicating member 40.Now, 5V voltage that light emitting diode D3 is provided owing to receiving described mainboard 200 and turn on, so that described light emitting diode D3 continuous illumination, to indicate described solid state hard disc 100 to be in power-up state.Now, described main control unit 20 will receive one from the triggering signal of mainboard 200, described main control unit 20 exchanges pin DAS by described data, data-triggered pin DSS and control pin P15 exports the data exchange pin DAS of one group of instruction extremely described driver element 30, data-triggered pin DSS and control pin P15, so that the second instruction pin IO5 of described driver element 30 export a high level control signal to described light emitting diode D2, and then make described light emitting diode D2 bright once, to indicate, described mainboard 200 is built with described solid state hard disc 100 vertical to be connected.
Described solid state hard disc 100 receives the hard disk controlling signal (such as SATA signal) of described mainboard 200 output, data storage is carried out with the described memory element 10 of control, now, reading and writing data is carried out between described main control unit 20 and described memory element 10, alternately output high level is controlled signal to described light emitting diode D1 and light emitting diode D2 by the first instruction pin IO4 and the second instruction pin IO5 of described driver element 30, alternately flashes controlling described light emitting diode D1 and light emitting diode D2.When message transmission rate between described main control unit 20 and described memory element 10 is fast, the frequency of described light emitting diode D1 and light emitting diode D2 alternately flicker is the fastest.Such as it is operated in first data transmission speed when described solid state hard disc 100, such as 1G/S, the most described driver element 30 alternately flashes controlling described light emitting diode D1 and light emitting diode D2 with the frequency of 30 times per minute, to indicate described solid state hard disc 100 message transmission rate now as 1G/S.When described solid state hard disc 100 is operated in the second message transmission rate, such as 2G/S, the most described driver element 30 alternately flashes controlling described light emitting diode D1 and light emitting diode D2 with the frequency of 60 times per minute, to indicate described solid state hard disc 100 message transmission rate now as 2G/S.
Above-mentioned solid state hard disc 100 and message transmission rate when applying the electronic installation 400 of described solid state hard disc to be worked by described solid state hard disc 100 by light emitting diode D1 and D2 in described indicating member 40 are shown, to facilitate user to observe.
Claims (10)
1. a solid state hard disc, including a memory element, one main control unit, one driver element and an indicating member, described memory element is used for storing data, described main control unit connects described memory element and for carrying out data transmission with described memory element, described driver element connects described memory element and described main control unit and for detecting the message transmission rate between described memory element and described main control unit, described driver element is according to the control signal of the message transmission rate output correspondence detected, described indicating member connects described driver element and exports the instruction information of correspondence in order to receive the control signal of described driver element output.
2. solid state hard disc as claimed in claim 1, it is characterized in that: described memory element includes the first to the 3rd data pin, a power pins and a grounding pin, the power pins of described memory element connects a power supply, the grounding pin ground connection of described memory element, the first of described memory element is all connected with described main control unit to the 3rd data pin.
3. solid state hard disc as claimed in claim 2, it is characterized in that: described main control unit includes the first to the 3rd data pin, one data exchange pin, one data-triggered pin, one controls pin, one power pins and a grounding pin, the power pins of described main control unit connects described power supply, the grounding pin ground connection of described main control unit, the data exchange pin of described main control unit, data-triggered pin and control pin are all connected with described driver element, the first of described main control unit connects to the 3rd data pin is corresponding with the first of described memory element to the 3rd data pin respectively, to carry out the transmission of data.
4. solid state hard disc as claimed in claim 3, it is characterized in that: described driver element includes the first to the 3rd data pin, one data exchange pin, one data-triggered pin, one controls pin, one first instruction pin, one second instruction pin, one power pins and a grounding pin, the power pins of described driver element connects described power supply, the grounding pin ground connection of described driver element, the first of described driver element connects to the 3rd data pin is corresponding with the first of described memory element to the 3rd data pin respectively, the data exchange pin of described driver element, data-triggered pin and control pin and exchange pin with the data of described main control unit respectively, data-triggered pin and control pin correspondence connect, first instruction pin and the second instruction pin of described driver element are all connected with described indicating member.
5. solid state hard disc as claimed in claim 4, it is characterized in that: described indicating member includes the first to the 3rd light emitting diode and the first to the 3rd resistance, the anode of described first light emitting diode is connected with the first instruction pin of described driver element, the negative electrode of described first light emitting diode passes through described first resistance eutral grounding, the anode of described second light emitting diode is connected with the second instruction pin of described driver element, the negative electrode of described second light emitting diode passes through described second resistance eutral grounding, the anode of described 3rd light emitting diode connects described power supply, the minus earth of described 3rd light emitting diode.
6. solid state hard disc as claimed in claim 5, it is characterised in that: described driver element controls described first light emitting diode according to message transmission rates different between the described memory element detected and described main control unit and described second light emitting diode alternately flashes with different frequencies.
7. an electronic installation, including a mainboard and a solid state hard disc, described mainboard connects described solid state hard disc and thinks that described solid state hard disc is powered, described solid state hard disc includes a memory element, one main control unit, one driver element and an indicating member, described memory element is used for storing data, described main control unit connects described memory element and for carrying out data transmission with described memory element, described driver element connects described memory element and described main control unit and for detecting the message transmission rate between described memory element and described main control unit, described driver element is according to the control signal of the message transmission rate output correspondence detected, described indicating member connects described driver element and exports the instruction information of correspondence in order to receive the control signal of described driver element output.
8. electronic installation as claimed in claim 7, it is characterized in that: described memory element includes the first to the 3rd data pin, a power pins and a grounding pin, the power pins of described memory element connects a power supply, the grounding pin ground connection of described memory element, the first of described memory element is all connected with described main control unit to the 3rd data pin.
9. electronic installation as claimed in claim 8, it is characterized in that: described main control unit includes the first to the 3rd data pin, one data exchange pin, one data-triggered pin, one controls pin, one power pins and a grounding pin, the power pins of described main control unit connects described power supply, the grounding pin ground connection of described main control unit, the data exchange pin of described main control unit, data-triggered pin and control pin are all connected with described driver element, the first of described main control unit connects to the 3rd data pin is corresponding with the first of described memory element to the 3rd data pin respectively, to carry out the transmission of data.
null10. electronic installation as claimed in claim 9,It is characterized in that: described driver element includes the first to the 3rd data pin、One data exchange pin、One data-triggered pin、One controls pin、One first instruction pin、One second instruction pin、One power pins and a grounding pin,Described indicating member includes the first to the 3rd light emitting diode and the first to the 3rd resistance,The power pins of described driver element connects described power supply,The grounding pin ground connection of described driver element,The first of described driver element connects to the 3rd data pin is corresponding with the first of described memory element to the 3rd data pin respectively,The data exchange pin of described driver element、Data-triggered pin and control pin and exchange pin with the data of described main control unit respectively、Data-triggered pin and control pin correspondence connect,First instruction pin and the second instruction pin of described driver element are all connected with described indicating member;The anode of described first light emitting diode is connected with the first instruction pin of described driver element, the negative electrode of described first light emitting diode passes through described first resistance eutral grounding, the anode of described second light emitting diode is connected with the second instruction pin of described driver element, the negative electrode of described second light emitting diode passes through described second resistance eutral grounding, the anode of described 3rd light emitting diode connects described power supply, the minus earth of described 3rd light emitting diode.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201521124053.0U CN205451043U (en) | 2015-12-31 | 2015-12-31 | Solid state hard drives and have said solid state hard drives's electron device |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201521124053.0U CN205451043U (en) | 2015-12-31 | 2015-12-31 | Solid state hard drives and have said solid state hard drives's electron device |
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| CN205451043U true CN205451043U (en) | 2016-08-10 |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107943652A (en) * | 2017-11-22 | 2018-04-20 | 郑州云海信息技术有限公司 | Hard disk control method, device and readable storage medium storing program for executing in a kind of storage system |
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2015
- 2015-12-31 CN CN201521124053.0U patent/CN205451043U/en active Active
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107943652A (en) * | 2017-11-22 | 2018-04-20 | 郑州云海信息技术有限公司 | Hard disk control method, device and readable storage medium storing program for executing in a kind of storage system |
| CN107943652B (en) * | 2017-11-22 | 2020-08-25 | 苏州浪潮智能科技有限公司 | Hard disk control method and device in storage system and readable storage medium |
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| GR01 | Patent grant |