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SN74CBT3306CDUAL FET BUS SWITCH5ĆV BUS SWITCH WITH ć2ĆV UNDERSHOOT PROTECTIONSCDS127A − SEPTEMBER 2003 − REVISED OCTOBER 2003D Undershoot Protection for Off-Isolation on A and B Ports Up To −2 VD Bidirectional Data Flow, With Near-Zero Propagation DelayD Low ON-State Resistance (r on )Characteristics (r on = 3 Ω Typical)D Low Input/Output Capacitance Minimizes Loading and Signal Distortion (C io(OFF) = 5 pF Typical)D Data and Control Inputs Provide Undershoot Clamp Diodes D Low Power Consumption (I CC = 3 µA Max)D V CC Operating Range From 4 V to 5.5 V DData I/Os Support 0 to 5-V Signaling Levels (0.8-V, 1.2-V, 1.5-V, 1.8-V, 2.5-V, 3.3-V, 5-V)D Control Inputs Can Be Driven by TTL or 5-V/3.3-V CMOS OutputsD I off Supports Partial-Power-Down Mode OperationD Latch-Up Performance Exceeds 100 mA Per JESD 78, Class IIDESD Performance Tested Per JESD 22− 2000-V Human-Body Model (A114-B, Class II)− 1000-V Charged-Device Model (C101)DSupports Both Digital and AnalogApplications: USB Interface, Bus Isolation,Low-Distortion Signal GatingD OR PW PACKAGE(TOP VIEW)123487651OE 1A 1B GNDV CC 2OE 2B 2Adescription/ordering informationThe SN74CBT3306C is a high-speed TTL-compatible FET bus switch with low ON-state resistance (r on ),allowing for minimal propagation delay. Active Undershoot-Protection Circuitry on the A and B ports of the SN74CBT3306C provides protection for undershoot up to −2 V by sensing an undershoot event and ensuring that the switch remains in the proper OFF state.The SN74CBT3306C is organized as two 1-bit bus switches with separate output-enable (1OE, 2OE) inputs.It can be used as two 1-bit bus switches or as one 2-bit bus switch. When OE is low, the associated 1-bit bus switch is ON, and the A port is connected to the B port, allowing bidirectional data flow between ports. When OE is high, the associated 1-bit bus switch is OFF, and the high-impedance state exists between the A and B ports.ORDERING INFORMATIONT APACKAGE †ORDERABLE PART NUMBER TOP-SIDE MARKING Tube SN74CBT3306CD SOIC − DTape and reel SN74CBT3306CDR CU306C −40°C to 85°CTube SN74CBT3306CPW TSSOP − PWTape and reelSN74CBT3306CPWRCU306C†Package drawings, standard packing quantities, thermal data, symbolization, and PCB design guidelines are available at /sc/package.Copyright 2003, Texas Instruments IncorporatedPlease be aware that an important notice concerning availability, standard warranty, and use in critical applications of Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet.PRODUCTION DATA information is current as of publication date.SN74CBT3306CDUAL FET BUS SWITCH5ĆV BUS SWITCH WITH ć2ĆV UNDERSHOOT PROTECTIONSCDS127A − SEPTEMBER 2003 − REVISED OCTOBER 2003description/ordering information (continued)This device is fully specified for partial-power-down applications using I off . The I off feature ensures that damaging current will not backflow through the device when it is powered down. The device has isolation during power off.To ensure the high-impedance state during power up or power down, OE should be tied to V CC through a pullup resistor; the minimum value of the resistor is determined by the current-sinking capability of the driver.FUNCTION TABLE (each bus switch)INPUT INPUT/OUTPUTOE AFUNCTION L B A port = B port HZDisconnectlogic diagram (positive logic)1A 1OESW1B2A 2OESW2B215736simplified schematic, each FET switch (SW)AEN †B†EN is the internal enable signal applied to the switch.Undershoot Protection CircuitSN74CBT3306CDUAL FET BUS SWITCH5ĆV BUS SWITCH WITH ć2ĆV UNDERSHOOT PROTECTIONSCDS127A − SEPTEMBER 2003 − REVISED OCTOBER 2003 absolute maximum ratings over operating free-air temperature range (unless otherwise noted)†. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Supply voltage range, V CC−0.5 V to 7 V Control input voltage range, V IN (see Notes 1 and 2) −0.5 V to 7 V. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Switch I/O voltage range, V I/O (see Notes 1, 2, and 3) −0.5 V to 7 V. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Control input clamp current, I IK(V IN< 0) −50 mA. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .I/O port clamp current, I I/OK(V I/O< 0) −50 mA ON-state switch current, I I/O (see Note 4) ±128 mA. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Continuous current through V CC or GND terminals ±100 mA. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .Package thermal impedance, θJA (see Note 5):D package 97°C/W. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .PW package 149°C/W Storage temperature range, T stg −65°C to 150°C. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .†Stresses beyond those listed under “absolute maximum ratings” may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated under “recommended operating conditions” is not implied. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.NOTES: 1.All voltages are with respect to ground unless otherwise specified.2.The input and output voltage ratings may be exceeded if the input and output clamp-current ratings are observed.3.V I and V O are used to denote specific conditions for V I/O.4.I I and I O are used to denote specific conditions for I I/O.5.The package thermal impedance is calculated in accordance with JESD 51-7.recommended operating conditions (see Note 6)MIN MAX UNITV CC Supply voltage4 5.5VV IH High-level control input voltage2 5.5VV IL Low-level control input voltage00.8VV I/O Data input/output voltage0 5.5VT A Operating free-air temperature−4085°C NOTE 6:All unused control inputs of the device must be held at V CC or GND to ensure proper device operation. Refer to the TI application report, Implications of Slow or Floating CMOS Inputs, literature number SCBA004.SN74CBT3306CDUAL FET BUS SWITCH5ĆV BUS SWITCH WITH ć2ĆV UNDERSHOOT PROTECTIONSCDS127A − SEPTEMBER 2003 − REVISED OCTOBER 2003electrical characteristics over recommended operating free-air temperature range (unless otherwise noted)PARAMETER TEST CONDITIONS MINTYP †MAX UNIT V IK Control inputs V CC = 4.5 V,I IN = −18 mA−1.8V V IKU Data inputs V CC = 5 V,0 mA > I I ≥ −50 mA,V IN = V CC or GND,Switch OFF−2V I IN Control inputsV CC = 5.5 V,V IN = V CC or GND ±1µA I OZ ‡V CC = 5.5 V,V O = 0 to 5.5 V,V I = 0,Switch OFF,V IN = V CC or GND ±10µA I off V CC = 0,V O = 0 to 5.5 V,V I = 010µA I CC V CC = 5.5 V,I I/O = 0,V IN = V CC or GND,Switch ON or OFF3µA ∆I CC §Control inputs V CC = 5.5 V,One input at 3.4 V,Other inputs at V CC or GND2.5mA C in Control inputs V IN = 3 V or 0 3.5pF C io(OFF)V I/O = 3 V or 0,Switch OFF,V IN = V CC or GND 5pF C io(ON)V I/O = 3 V or 0,Switch ON,V IN = V CC or GND 12.5pFV CC = 4 V,TYP at V CC = 4 VV I = 2.4 V,I O = −15 mA 812on ¶V I O = 64 mA 36r V I = 0I O = 30 mA36ΩCC = 4.5 VV I = 2.4 V,I O = −15 mA 510V IN and I IN refer to control inputs. V I , V O , I I , and I O refer to data pins.†All typical values are at V CC = 5 V (unless otherwise noted), T A = 25°C.‡For I/O ports, the parameter I OZ includes the input leakage current.§This is the increase in supply current for each input that is at the specified voltage level, rather than V CC or GND.¶Measured by the voltage drop between the A and B terminals at the indicated current through the switch. ON-state resistance is determined by the lower of the voltages of the two (A or B) terminals.switching characteristics over recommended operating free-air temperature range (unless otherwise noted) (see Figure 3)FROM TO V CC = 4 V V CC = 5 V ± 0.5 V PARAMETER(INPUT)(OUTPUT)MINMAX MINMAX UNITt pd # A or B B or A 0.240.15ns t en OE A or B 4.6 1.5 4.2ns t disOEA or B4.31.5 4.3ns #The propagation delay is the calculated RC time constant of the typical ON-state resistance of the switch and the specified load capacitance,when driven by an ideal voltage source (zero output impedance).SN74CBT3306CDUAL FET BUS SWITCH5ĆV BUS SWITCH WITH ć2ĆV UNDERSHOOT PROTECTIONSCDS127A − SEPTEMBER 2003 − REVISED OCTOBER 2003undershoot characteristics (see Figures 1 and 2)PARAMETERTEST CONDITIONSMIN TYP †MAXUNIT V OUTU V CC = 5.5 V,Switch OFF,V IN = V CC or GND2V OH −0.3V†All typical values are at V CC = 5 V (unless otherwise noted), T A = 25°C.Figure 1. Device Test Setup50 ΩV SV CC11 V 100 k Ω100 k Ω10 pFDUTInputGeneratorAxBxFigure 2. Transient Input Voltage (V I ) and OutputVoltage (V OUTU ) Waveforms(Switch OFF)−2 V5.5 V10 %20 ns10 %90 %90 %2 ns2 nsV OH − 0.3V OHOutput (V OUTU )Input (Open Socket)SN74CBT3306CDUAL FET BUS SWITCH5ĆV BUS SWITCH WITH ć2ĆV UNDERSHOOT PROTECTIONSCDS127A − SEPTEMBER 2003 − REVISED OCTOBER 2003PARAMETER MEASUREMENT INFORMATIONV OH V OLC L(see Note A)TEST CIRCUITS17 VOpen GNDR LR Lt PLH t PHLOutput Waveform 1S1 at 7 V (see Note B)Output Waveform 2S1 at Open (see Note B)t PZLt PZHt PLZt PHZ 3 V0 V V OH V OL0 VV OL + V ∆V OH − V ∆0 VOutput Control (V IN )3 V3.5 VVOLTAGE WAVEFORMSPROPAGATION DELAY TIMES (t pd(s))VOLTAGE WAVEFORMS ENABLE AND DISABLE TIMESOutputNOTES: A.C L includes probe and jig capacitance.B.Waveform 1 is for an output with internal conditions such that the output is low except when disabled by the output control.Waveform 2 is for an output with internal conditions such that the output is high except when disabled by the output control.C.All input pulses are supplied by generators having the following characteristics: PRR ≤10 MHz, Z O = 50 Ω, t r ≤2.5 ns, t f ≤2.5 ns.D.The outputs are measured one at a time with one transition per measurement.E.t PLZ and t PHZ are the same as t dis .F.t PZL and t PZH are the same as t en .G.t PLH and t PHL are the same as t pd(s). The tpd propagation delay is the calculated RC time constant of the typical ON-stateresistance of the switch and the specified load capacitance, when driven by an ideal voltage source (zero output impedance).H.All parameters and waveforms are not applicable to all devices.1.5 V1.5 V1.5 V1.5 V1.5 V 1.5 V1.5 V1.5 V50 ΩV G1V CCDUT50 ΩV IN50 ΩV G250 ΩV ITEST R L S1V ∆C L 5 V ±0.5 V4 V V CC V I t PHZ /t PZHt PLZ /t PZL t pd(s) 5 V ±0.5 V4 V5 V ±0.5 V4 VOpen Open 7 V 7 V Open Open500 Ω500 Ω500 Ω500 Ω500 Ω500 ΩV CC or GND V CC or GNDGND GND V CC V CC 50 pF 50 pF 50 pF 50 pF 50 pF 50 pF0.3 V 0.3 V 0.3 V 0.3 VOutput Control (V IN )Input GeneratorInput GeneratorV OFigure 3. Test Circuit and Voltage WaveformsPACKAGING INFORMATION(1) The marketing status values are defined as follows:ACTIVE: Product device recommended for new designs.LIFEBUY: TI has announced that the device will be discontinued, and a lifetime-buy period is in effect.NRND: Not recommended for new designs. Device is in production to support existing customers, but TI does not recommend using this part in a new design.PREVIEW: Device has been announced but is not in production. Samples may or may not be available.OBSOLETE: TI has discontinued the production of the device.(2) RoHS: TI defines "RoHS" to mean semiconductor products that are compliant with the current EU RoHS requirements for all 10 RoHS substances, including the requirement that RoHS substance do not exceed 0.1% by weight in homogeneous materials. Where designed to be soldered at high temperatures, "RoHS" products are suitable for use in specified lead-free processes. TI may reference these types of products as "Pb-Free".RoHS Exempt: TI defines "RoHS Exempt" to mean products that contain lead but are compliant with EU RoHS pursuant to a specific EU RoHS exemption.Green: TI defines "Green" to mean the content of Chlorine (Cl) and Bromine (Br) based flame retardants meet JS709B low halogen requirements of <=1000ppm threshold. Antimony trioxide based flame retardants must also meet the <=1000ppm threshold requirement.(3) MSL, Peak Temp. - The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications, and peak solder temperature.(4) There may be additional marking, which relates to the logo, the lot trace code information, or the environmental category on the device.(5) Multiple Device Markings will be inside parentheses. Only one Device Marking contained in parentheses and separated by a "~" will appear on a device. If a line is indented then it is a continuation of the previous line and the two combined represent the entire Device Marking for that device.(6) Lead finish/Ball material - Orderable Devices may have multiple material finish options. Finish options are separated by a vertical ruled line. Lead finish/Ball material values may wrap to two lines if the finish value exceeds the maximum column width.Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is provided. TI bases its knowledge and belief on information provided by third parties, and makes no representation or warranty as to the accuracy of such information. Efforts are underway to better integrate information from third parties. TI has taken andAddendum-Page 1continues to take reasonable steps to provide representative and accurate information but may not have conducted destructive testing or chemical analysis on incoming materials and chemicals. TI and TI suppliers consider certain information to be proprietary, and thus CAS numbers and other limited information may not be available for release.In no event shall TI's liability arising out of such information exceed the total purchase price of the TI part(s) at issue in this document sold by TI to Customer on an annual basis.Addendum-Page 2TAPE AND REEL INFORMATION*All dimensions are nominalDevicePackage Type Package Drawing Pins SPQReel Diameter (mm)Reel Width W1(mm)A0(mm)B0(mm)K0(mm)P1(mm)W (mm)Pin1Quadrant SN74CBT3306CDR SOIC D 82500330.012.4 6.4 5.2 2.18.012.0Q1SN74CBT3306CPWR TSSOP PW 82000330.012.47.0 3.6 1.68.012.0Q1SN74CBT3306CPWRTSSOPPW82000330.012.47.03.61.68.012.0Q1*All dimensions are nominalDevice Package Type Package Drawing Pins SPQ Length(mm)Width(mm)Height(mm) SN74CBT3306CDR SOIC D8*******.5336.125.0 SN74CBT3306CPWR TSSOP PW82000367.0367.035.0SN74CBT3306CPWR TSSOP PW82000364.0364.027.0TUBE*All dimensions are nominalDevice Package NamePackage TypePins SPQ L (mm)W (mm)T (µm)B (mm)SN74CBT3306CD D SOIC 87550783940 4.32SN74CBT3306CPWPWTSSOP815053010.236003.5PACKAGE MATERIALS INFORMATION5-Jan-2022PACKAGE OUTLINESOIC - 1.75 mm max heightD0008ASMALL OUTLINE INTEGRATED CIRCUITNOTES:1. Linear dimensions are in inches [millimeters]. Dimensions in parenthesis are for reference only. Controlling dimensions are in inches. Dimensioning and tolerancing per ASME Y14.5M.2. This drawing is subject to change without notice.3. This dimension does not include mold flash, protrusions, or gate burrs. Mold flash, protrusions, or gate burrs shall not exceed .006 [0.15] per side.4. This dimension does not include interlead flash.5. Reference JEDEC registration MS-012, variation AA.EXAMPLE BOARD LAYOUTSOIC - 1.75 mm max heightD0008ASMALL OUTLINE INTEGRATED CIRCUITNOTES: (continued)6. Publication IPC-7351 may have alternate designs.7. Solder mask tolerances between and around signal pads can vary based on board fabrication site.EXAMPLE STENCIL DESIGNSOIC - 1.75 mm max heightD0008ASMALL OUTLINE INTEGRATED CIRCUITNOTES: (continued)8. Laser cutting apertures with trapezoidal walls and rounded corners may offer better paste release. IPC-7525 may have alternate design recommendations.9. Board assembly site may have different recommendations for stencil design.PACKAGE OUTLINETSSOP - 1.2 mm max heightPW0008ASMALL OUTLINE PACKAGENOTES:1. All linear dimensions are in millimeters. Any dimensions in parenthesis are for reference only. Dimensioning and tolerancing per ASME Y14.5M.2. This drawing is subject to change without notice.3. This dimension does not include mold flash, protrusions, or gate burrs. Mold flash, protrusions, or gate burrs shall not exceed 0.15 mm per side.4. This dimension does not include interlead flash. Interlead flash shall not exceed 0.25 mm per side.5. Reference JEDEC registration MO-153, variation AA.EXAMPLE BOARD LAYOUT PW0008ATSSOP - 1.2 mm max heightSMALL OUTLINE PACKAGE ArrayNOTES: (continued)6. Publication IPC-7351 may have alternate designs.7. Solder mask tolerances between and around signal pads can vary based on board fabrication site.EXAMPLE STENCIL DESIGN PW0008ATSSOP - 1.2 mm max heightSMALL OUTLINE PACKAGE ArrayNOTES: (continued)8. Laser cutting apertures with trapezoidal walls and rounded corners may offer better paste release. IPC-7525 may have alternatedesign recommendations.9. Board assembly site may have different recommendations for stencil design.IMPORTANT NOTICE AND DISCLAIMERTI PROVIDES TECHNICAL AND RELIABILITY DATA (INCLUDING DATA SHEETS), DESIGN RESOURCES (INCLUDING REFERENCE DESIGNS), APPLICATION OR OTHER DESIGN ADVICE, WEB TOOLS, SAFETY INFORMATION, AND OTHER RESOURCES “AS IS” AND WITH ALL FAULTS, AND DISCLAIMS ALL WARRANTIES, EXPRESS AND IMPLIED, INCLUDING WITHOUT LIMITATION ANY IMPLIED WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT OF THIRD PARTY INTELLECTUAL PROPERTY RIGHTS.These resources are intended for skilled developers designing with TI products. You are solely responsible for (1) selecting the appropriate TI products for your application, (2) designing, validating and testing your application, and (3) ensuring your application meets applicable standards, and any other safety, security, regulatory or other requirements.These resources are subject to change without notice. TI grants you permission to use these resources only for development of an application that uses the TI products described in the resource. Other reproduction and display of these resources is prohibited. No license is granted to any other TI intellectual property right or to any third party intellectual property right. TI disclaims responsibility for, and you will fully indemnify TI and its representatives against, any claims, damages, costs, losses, and liabilities arising out of your use of these resources.TI’s products are provided subject to TI’s Terms of Sale or other applicable terms available either on or provided in conjunction with such TI products. TI’s provision of these resources does not expand or otherwise alter TI’s applicable warranties or warranty disclaimers for TI products.TI objects to and rejects any additional or different terms you may have proposed.Mailing Address: Texas Instruments, Post Office Box 655303, Dallas, Texas 75265Copyright © 2022, Texas Instruments Incorporated。

——————————————产品特性隔离功能；“ISO 11898-24 V”标准； ； 个节点；具有极低电磁辐射和高的抗电磁干扰性；（设备人体放电方式±，浪涌（耦合方式±4kV 高低温特性好，满足工业级产品要求；产品数据手册广州致远电子股份有限公司—————————————订购信息————————————————————————————————典型应用1.1所示为CTM8251S 的应用示例，该模块可以连接任何一款CAN ISO 11898标准的CAN 节点间隔离收发功能。

在以往的设计方案中需要光耦、隔离、CAN 收发器等其他元器件才能实现带隔离的CAN 收发电路，但现在您只需利用一片CTM8251(A)S 接口模块就可以实现带隔离的CAN 收发电路，隔离电压可以2500VDC ，其接口简单，使用方便，是您组成嵌入式CAN 网络的理想选择。

图 1.1 CTM8251S 与传统分立器件方案对比图 2.1 CTM8251S和CTM8251AS实物图产品尺寸：长(L)×宽(W)×高(H)，19.90×19.90×5.00mm。

2.2 CTM8251(A)S引脚分布（底视图）2.1 CTM收发器引脚定义引脚名称1 VIN2 GND3 TXDCAN4 RXDCAN6 CANHCANH7 CANLCANL8 CANG 隔离电源输出地时，请悬空此引脚。

图 3.1 CTM8251S和CTM8251AS数据速率与电源对应输入电流图 3.2 串行接口（单通道）输入电流与数据速率对应关系绝缘特性CTM系列模块绝缘特性测试，温度：+25℃，各电压下的耐压测试时间为测试曲线如图所示：图 3.3 绝缘特性曲线图图 4.1 CTM8251S接口电路注：详细的应用见CTM8251S应用实例，CTM8251AS供电电源为3.3V。

网络拓扑结构图 4.2 CTM8251S典型应用如图 4.2所示CTM8251S与CTM8251S以及CTM8251AS等互连的应用实例，在同一个CAN-bus网络中，至少可连接110个CTM8251(A)S模块。

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模拟SPI口实现对CAN控制器mcp2515的操作程序(2009-06-18 11:33:20)标签：can总线mcp2515参考程序it#include "2515.h"#include "SPI.h"#include "reg51.h"#include "Function.h"#define CAN_10Kbps 0x31#define CAN_25Kbps 0x13#define CAN_50Kbps 0x09#define CAN_100Kbps 0x04#define CAN_125Kbps 0x03#define CAN_250Kbps 0x01#define CAN_500Kbps 0x00//void SPIReset(void);//void SPIByteWrite(unsigned char ,unsigned char );//unsigned char SPIByteRead(unsigned char );unsigned char dummy;void Init2515(unsigned int IDF){SPIReset();delay_ms(1);//SPIByteWrite(CANCTRL,0x80);//CAN工作在配置模式SPIByteWrite(RXM0SIDH,0x00);SPIByteWrite(RXM0SIDL,0x00);SPIByteWrite(RXF0SIDH,0x00);SPIByteWrite(RXF0SIDL,0x00);SPIByteWrite(RXM1SIDH,0x00);SPIByteWrite(RXM1SIDL,0x00);SPIByteWrite(RXF2SIDH,0x00);SPIByteWrite(RXF2SIDL,0x00);//设置波特率为10Kbps//set CNF1,SJW=00,长度为1TQ,BRP=49,TQ=[2*(BRP+1)]/Fsoc=2*50/8M=12.5usSPIByteWrite(CNF1,CAN_125Kbps);//set CNF2,SAM=0,在采样点对总线进行一次采样，PHSEG1=(2+1)TQ=3TQ,PRSEG=(0+1)TQ=1TQSPIByteWrite(CNF2,0x80|PHSEG1_3TQ|PRSEG_1TQ);//set CNF3,PHSEG2=(2+1)TQ=3TQ,同时当CANCTRL.CLKEN=1时设定CLKOUT引脚为时间输出使能位SPIByteWrite(CNF3,PHSEG2_3TQ);//set TXB0，设置发送缓冲器0的标识符和发送的数据，以及发送的数据长度SPIByteWrite(TXB0CTRL,0x03);//设置发送缓冲器0控制寄存器清零TXREQ,发送优先级最高//BitModiMcp2515(TXB0CTRL,0x08,0x00);SPIByteWrite(TXB0SIDH,IDF);//设置发送缓冲器0的标准标识符，待修改***SPIByteWrite(TXB0SIDL,0xE0);//用到标准标识符SPIByteWrite(TXB0DLC,DLC_8);//设置发送数据的长度为8个字节//SPIByteWrite(TXB0D0,0x1E);//有待修改及确定是否使用//SPIByteWrite(TXB0D1,0x10)；//有待修改及确定是否使用//设置接收缓冲器0的标识符和初始化数据//SPIByteWrite(RXB0SIDH,0x55);//设置接收缓冲器0的标准标识符，待修改***//SPIByteWrite(RXB0SIDL,0xE0);//用到标准标识符SPIByteWrite(RXB0CTRL,0x20);//仅仅接收标准标识符的有效信息，FIILHIT0=0表示RXB0 ，采用FILHIT0SPIByteWrite(RXB0DLC,DLC_8);//设置接收数据的长度为8个字节SPIByteWrite(RXF0SIDH,0xE0);//初始化接收滤波器0，待修改***SPIByteWrite(RXF0SIDL,0xE0);SPIByteWrite(RXM0SIDH,0xFF);//初始化接收屏蔽器0，待修改***SPIByteWrite(RXM0SIDL,0xE0);//设置接收缓冲器1的标识符和初始化数据//SPIByteWrite(RXB1SIDH,IDF); //设置接收缓冲器0的标准标识符，待修改***//SPIByteWrite(RXB1SIDL,0xE0);//用到标准标识符SPIByteWrite(RXB1CTRL,0x20);//仅仅接收标准标识符的有效信息，FIILHIT0=0表示RXB0 ，采用FILHIT0SPIByteWrite(RXB1DLC,DLC_8);//设置接收数据的长度为8个字节SPIByteWrite(RXF2SIDH,0x00);//初始化接收滤波器2，待修改***SPIByteWrite(RXF2SIDL,0xE0);SPIByteWrite(RXF3SIDH,0x01);//初始化接收滤波器3，待修改***SPIByteWrite(RXF3SIDL,0xE0);SPIByteWrite(RXF4SIDH,0x02);//初始化接收滤波器4，待修改***SPIByteWrite(RXF4SIDL,0xE0);SPIByteWrite(RXF5SIDH,0x56);//初始化接收滤波器5，待修改***SPIByteWrite(RXF5SIDL,0xE0);SPIByteWrite(RXM1SIDH,0xFF);//初始化接收屏蔽器1，待修改***SPIByteWrite(RXM1SIDL,0xE0);//设置接收缓冲器0中断SPIByteWrite(CANINTF,0x00);//接收完一次必须对中断标志位清0SPIByteWrite(CANINTE,0x02);//接收缓冲器0满中断使能位***修改成01-02//设置单触发模式1 使能，报文尝试发送一次；0禁止。

电容式触摸感应按键作为一种人机交互界面，被广泛应用于家电、智能穿戴设备、遥控设备、多媒体播放器、移动电话、楼宇安防等产品中。

与传统的机械按键相比，电容性触摸按键具备耐用、成本低、结构简单且易于安装等优点。

Chiphomer启攀微电子致力于电容式触摸按键产品已有十年时间，有成熟的产品线和经验丰富的技术支持团队。

在产品特性方面：1，感应通道数量-涵盖了1/2/4/6/8/12/15通道；2，芯片形态：包括ASIC和SOC两大类产品，以满足客户不同的使用需求；3，功耗：低功耗产品线和常功耗产品线4，功能：可实现单击按触，滑动检测，GPIO控制，LED指示，逻辑运算，邻键抑制，防水抗污等各类功能CP2524 是一款支持 4 通道的电容式触摸传感芯片。

内嵌高精度电容数字转换（CDC）模块，并结合专用 DSP 处理器，能在各种应用环境下准确识别人手指的触摸。

感应判断结果可通过芯片引脚输出。

独特的 CDC 技术可以检测到电容变化，并把该变化量转换成数字信号。

转换后的数字信号经过硬件低通和 DSP处理，最后获得触摸感应判断。

硬件滤波器可解决输入信号的抖动。

集成特殊判断算法的DSP 处理器能实时计算出每个感应通道的状态。

感应判决算法具有自校准功能，能适应多种应用环境的变化。

深圳市奥伟斯科技有限公司是一家专注触摸芯片,单片机,电源管理芯片,语音芯片,场效应管,显示驱动芯片,网络接收芯片,运算放大器,红外线接收头及其它半导体产品的研发,代理销售推广的高新技术企业。

自成立以来一直致力于新半导体产品在国内的推广与销售,年销售额超过壹亿人民币，是一家具有综合竞争优势的专业电子元器件代理商。

主要品牌产品:一、OWEIS-TECH：OWEIS 触摸芯片、 OWEIS 接口芯片、 OWEIS 电源芯片、 OWEIS 语音芯片、 OWEIS 场效应管一、电容式触摸芯片、ADSEMI 触摸芯片代理、芯邦科技触控芯片、万代科技触摸按键芯片、博晶微触摸控制芯片、海栎创触摸感应芯片、启攀微触摸、 IC 融和微触摸感应、IC 合泰触摸按键、IC 通泰触摸芯片二、汽车电子/电源管理/接口芯片/逻辑芯片:IKSEMICON 一级代理、 ILN2003ADT、IK62783DT、 IL2596、IL2576 、ILX485、 ILX3485、 ILX232 、ILX3232三、功率器件/接收头/光电开关:KODENSHI、 AUK、 SMK系列、 MOS管、SMK0260F、 SMK0460F、SMK0760F、 SMK1260F、 SMK1820F、 SMK18T50F四、LED 显示驱动芯片:中微爱芯 AIP 系列： AIP1668、 AIP1628 、AIP1629 、AIP1616 、天微电子 TM 系列： TM1628 TM1668 TM1621五、电源管理芯片:Power Integrations LNK364PN LNK564PN 芯朋微 PN8012 PN8015 AP5054 AP5056 力生美晶源微友达天钰电子FR9886 FR9888六、语音芯片:APLUS 巨华电子AP23085 AP23170 AP23341 AP23682 AP89085 AP89170 AP89341 AP89341K AP89682七、运算放大器:3PEAK 运算放大器、聚洵运算放大器、圣邦微运算放大器八八、发光二极管:OSRAM 欧司朗发光二极管、Lite-On 光宝发光二极管、Everlight 亿光发光二极管、 Kingbright 今台发光二极管九、CAN收发器:NXP恩智浦CAN收发器、Microchip微芯CAN收发器十、分销产品线:ONSEMI安森美 TI德州仪器 ADI TOSHIBA东芝 AVAGO安华高十一、 MCU单片机ABOV现代单片机MC96F系列、 Microchip微芯单片机PIC12F PIC16F PIC18F系列、 FUJITSU富仕通单片机MB95F系列、STM单片机STM32F STM32L系列、 CKS中科芯单片机CKS32F系列、TI单片机 MSP430系列、TMS320F系列、 NXP单片机LPC系列下面，奥伟斯主要给大家详细介绍Chiphomer电容式触摸IC启攀微电容式触摸IC的相关产品信息：CP2524 采用 CMOS 工艺，工作电压范围为 2.8V ~ 5.5V，采用SOP24 封装。

韩国IKSEMI 主要研发生产产品：IKSEMI汽车- 电机驱动器- 稳压器（LDO）- 沟通（LIN：本地互连网络）（CAN：控制器区域网络）IKSEMI电源管理-TR阵列IC - BLDC电机控制器- 功率因数控制器- DC-DC转换器 - 稳压器（LDO） - 电压检测器和复位IC IKSEMI模拟和混合信号- 运算放大器和比较器- 火灾探测器- 电话IC- 音频系统和旋律IC- 定时器和实时时钟ICIKSEMI显示驱动程序- LED显示屏驱动程序- LED照明驱动器IKSEMI接口和标准逻辑- RS-232，RS-485，UART- IW4000B系列和IN74HC系列TTL逻辑A.绿色产业：LED照明和显示照明（LED显示屏）产品编号：ILN2004，IK62083，IK62783，ILN2003，IL9910，IL9961，IL9921，IK2306PT应用程序：家用电器（LG，三星等），照明仪器（Kumho Elec。

等）（家用电器）：2Q。

2011〜显示（分段显示）产品编号：IK2102，IK2108，IK2110。

IK6207，IK6218应用程序：家用电器（三星，LG等）：2Q。

2011〜收发器/ LIN收发器，ILA82C251D / IK8302，芯片封装，HSL项目竞争对手：飞思卡尔，On Semi，英飞凌，恩智浦：2Q。

2014〜，方向指示灯，清洗刮水器定时器（其他）-02，ILE4264，ILE4264-2G，ILE4270 / 5/6/8，IL33193，IL33193-03，IK642B客户：Unick，Woory Ind。

，Dong-A elec。

，Kamtec，S＆T Daewoo，Kwangjin-wintec，Daesung-elec。

，Shinchang-elec。

等应用程序：低压降稳压器，方向指示器，清洗刮水器定时器等IKSEMI电机控制器先进的电机控制器业务产品编号：IK6019AD，IK6501SD应用：步进电机驱动器，3相PWM BLDC电机控制器竞争对手：拥有，东芝客户：机器人清洁剂，空调（室内/室外）风扇电机IKSMEI汽车电子1)IKSMEI电机驱动器IL33091ADT替代MC33091ADR2GIL33091AD替代MC33091ADG IL33091AN替代MC33091APG IL33091替代MC33091IK8508替代TDA3629IK85092)IKSMEI LDOILE4250G替代TLE4250GILE4263替代TLE4263ILE4264-2G替代TLE4264-2G ILE4270GKB替代TLE4270G ILE4270G替代TLE4270GILE4270GD2替代TLE4270G ILE4270GD2T替代TLE4270G ILE4275替代TLE4275ILE4275DOT替代TLE4275D ILE4275D2替代TLE4275G ILE4275D2T替代TLE4275GILE4276替代TLE4276ILE4276D0T替代TLE4276DVILE4276-50D0T替代TLE4276DV50 ILE4276-85D0T替代TLE4276ILE4276-10D0T替代TLE4276ILE4276替代TLE4276ILE4276D2替代TLE4276GVILE4276D2T替代TLE4276GVILE4276-50D2T替代TLE4276GV50 ILE4276-85D2T替代TLE4276GV85 ILE4276-10D2T替代TLE4276GV10 ILE4278D替代TLE4278GILE4278DT替代TLE4278GILE4279-4G替代TLE4279GMIK4993替代L4993DIK4993替代L4993M3)IKSMEI汽车通讯IL33290替代MC33290IL33290D替代MC33290DGIL33290DT替代MC33290DR2G ILA82C251替代PCA82C251T IN2515DT替代MCP2515-I/SO IK8301替代TJA10XXIK8302替代TJA10XX4)IKSMEI汽车用集成电路IL33193N替代MC33193PIL33193D替代MC33193DGIL33193DT替代MC33193DR2G IK642BN替代U642BIK642BD替代U642BIK642BDT替代U642BIL6083N替代U6083BIL1055IL8190N替代CS8190ENF16IL8190DW替代CS8190EDWF20G IL8190DWY替代CS8190EDWFR20G IL1815替代LM1815IL1815N替代LM1815NIL1815DT替代LM1815MIL1815DT替代LM1815MXIL9014IK8001IK80105)IKSMEI漏电保护器IL7101N替代GL7101,KA2803IL7101D替代GL7101,KA2803IL54123N替代M54123IL54123D替代M54123IL4145AN替代RV4145AIL4145AD替代RV4145A5)IKSMEI电机控制器IL33035N替代MC33035PIL33035DW替代MC33035DWIL33035DWT替代MC33035DWR2G IK6501替代TB6551FIK6501-01SDT替代TB6551FAG IK60196)PWM＆SMPS控制器IL494N替代GL494 KA7500IL494D替代GL494 KA7500IL494DT替代GL494 KA7500IL494AN替代GL494 KA7500IL494AD替代GL494 KA7500IL494ADT替代GL494 KA7500 IL3842N替代UC3842IL3842D替代UC3842IL3843N替代UC3843IL3843D替代UC3843IL6083N替代U6083BIL44608N替代MC44608PIL44608N40替代MC44608P40IL44608N75替代MC44608P75IL44608N100替代MC44608P1007)IKSMEI功率控制器IL34262替代MC34262IL34262N替代MC34262PGIL34262D替代MC34262DGIL34262DT替代MC34262DR2GILA3354N替代TFA33548)IKSMEI达林顿晶体管阵列ILN2003AN替代ULN2003A TD62003A KID65003A ILN2003AD替代ULN2003A TD62003A KID65003A ILN2004N替代ULN200304A TD6200304A KID650004ILN2004D替代ULN200304A TD6200304A KID650004 IK62083N替代ULN2803 TD62083 KID65083IK62083DW替代ULN2803 TD62083 KID65083IK62084N替代ULN28004 TD620884 KID650884IK62084DW替代ULN28004 TD620884 KID650884IK62783N替代TD62783 KID65783IK62783DW替代TD62783AFWG KID65783IK62783DH替代TD62783 KID65783IK62784N替代TD627884 KID65784IK62784DW替代TD627884 KID65784IK62784DH替代TD627884 KID657849)IKSMEI IGBT栅极驱动器IL33153N替代MC33153PIL33153D替代MC33153DGIL33153DT替代MC33153DR2G10)IKSMEI DC-DC转换器IL34063AN替代MC34063AP1GIL34063AD替代MC34063ADGIL34063ADT替代MC34063ADR2GIL34063AN替代MC34063AL-D08-T IL34063AD替代MC34063ALIL34063ADT替代MC34063AL-SO8-R IK1482替代MP1482IK1583替代MP1583IK1591替代MP1591IK2307替代MP2307IK5302DIK5304DIK5305D11)IKSMEI低压差稳压器IL1117C替代AMS1117IL1950替代FAN19501L1951替代FAN1951IL2931替代LM2931ZIK1589KB替代FAN1589IK1589DOT替代FAN1589IK1589D2替代FAN1589IK1589D2T替代FAN1589IL3480LF替代LM348012)IKSMEI三端稳压器IL2596替代LM2596S-3.3IL2596-3.3D2T替代LM2596S-5.0IL2596-5.0D2T替代LM2596S-12IL2596-12D2T替代LM2596S-15IL2596-ADJD2T替代LM2596S-ADJIL2596-3.3KB替代LM2596T-3.3IL2596-5.0KB替代LM2596T-5.0IL2596-12KB替代LM2596T-12IL2596-ADJKB替代LM2596T-ADJIL2576-3.3D2T替代LM2576SX-3.3 LM2576S-3.3IL2576-5.0D2T替代LM2576SX-5.0 LM2576S-5.0IL2576-12D2T替代LM2576SX-12 LM2576S-12IL2576-15D2T替代LM2576SX-15 LM2576S-15IL2576-ADJD2T替代LM2576SX-ADJ LM2576S-15ADJ IL2576-3.3D2T-P替代LM2576SX-3.3 LM2576S-3.3 IL2576-5.0D2T-P替代LM2576SX-5.0 LM2576S-5.0 IL2576-12D2T-P替代LM2576SX-12 LM2576S-12IL2576-15D2T-P替代LM2576SX-15 LM2576S-15IL2576-ADJD2T-P替代LM2576SX-ADJ LM2576S-15ADJ IL2576-3.3KB替代LM2576T-3.3IL2576-5.0KB替代LM2576T-5.0IL2576-12KB替代LM2576T-12IL2576-15KB替代LM2576T-15IL2576-ADJKB替代LM2576T-ADJIK1509-3.3DT替代AP1509-3.3IK1509-5.0DT替代AP1509-5.0IK1509-12DT替代AP1509-12IK1509-ADJDT替代AP1509-ADJ13)IKSMEI复位ICIN1232N替代DS1232IN1232D替代DS1232IN1705N替代DS1705IN1705D替代DS1705IN1705RN替代DS1705IN1705RD替代DS1705IN1706N替代DS1706SIN1706D替代DS1706SIN1706SRN替代DS1706SIN1706SRD替代DS1706SIN1708N替代DS1708IN1708D替代DS170814)IKSMEI LED/LCD显示驱动芯片IK2102替代MC2102DIK6486替代GM6486KL7107替代ICL7107IK2107IK2108IK6207IK620815)IKSMEI LED照明驱动芯片IK2802替代MBI1802IK2802DT替代MBI1802GDIK2804替代MBI1804IK2804DT替代MBI1804GDIK2816替代MBI1816IK2816TSD替代MBI1816GT IL9910替代HV9910IL9910N-AIL9910DT-A替代HV9910LG-G IL9910N-BIL9910DT-B替代HV9910BLG-G IL9910N-CIL9910DT-C替代HV9910CLG-G IL9961替代HV9961IL9961D替代HV9961LGIL9961DT替代HV9961LG-GIL9967替代HV9967IL9921LF替代HV9921N3-GIL9921PT替代HV9921N8-GIL9922LF替代HV9922N3-GIL9922PT替代HV9922N8-GIL9923LF替代HV9923N3-GIL9923PT替代HV9923N8-GIK402U替代BCR402UIL1937替代LT1937IL7150D0T替代AMC7150IL7150AD0T替代AMC7150IK2306IK2312IK300415)IKSMEI RS-232接口芯片IN75232N替代GD75232NIN75232DW替代GD75232DWRIN75232TDS替代GD75232PWRILX232替代MAX232ILX232N替代MAX232CPE MAX232EPEILX232D替代MAX232CSE MAX232ESEILX3232替代MAX3232ILX3232N替代MAX3232CPE MAX3232EPEILX3232D替代MAX3232CSE MAX3232ESEILX3232TSD替代MAX3232CWE MAX3232EWEILX3221ESD替代MAX3221ECAE MAX3221EEAEILX3221ESDT替代MAX3221ECAE+ MAX3221EEAE+ ILX3221ETSD替代MAX3221ECPWR MAX3221ECPWRG4 ILX3221ETSDT替代MAX3221ECPWR MAX3221ECPWRG4ILX3226N替代MAX3226ILX3226D替代MAX3226ILX3226DT替代MAX3226ILX3226TSD替代MAX322615)IKSMEI RS-485接口芯片ILX485N替代MAX485CPA MAX485EPAILX485D替代MAX485CSA MAX485ESAILX485DT替代MAX485CSA+T MAX485ESA+TILX3485N替代MAX3485CPA MAX3485EPAILX3485D替代MAX3485CSA MAX3485ESAILX3485DT替代MAX3485CSA+T MAX3485ESA+T ILX75176N替代SN75176BPILX75176D替代SN75176BDILX75176DT替代SN75176BDRG4ILX3085N替代MAX3085ECPA MAX3085EEPAILX3085D替代MAX3085ECSA MAX3085EESAILX3085DT替代MAX3085ECSA+T MAX3085EESA+T16)IKSMEI发射器接收器IN1488N替代MC1488PIN1488D替代MC1488DGIN1488DT替代MC1488DR2G IN1489AN替代MC1489APIN1489AD替代MC1489ADGIN1489ADT替代MC1489ADR2G INS82C50AN替代INS82C50AN INS82C50AD替代INS82C50A IN82C55AN替代IN82C55AN IN82C55BN替代IN82C55BN INF8574AN替代PCF8574INF8574AD替代PCF8574T INF8574ADT替代PCF8574T17)IKSMEI音箱集成电路KL34018N替代MC34018KL34018DW替代MC34018IL34118N替代MC34118P U4082IL34118DW替代MC34118DW U4082IL34118DWT替代MC34118DWR2G U4082 IL34119N替代MC34119P U4083IL34119D替代MC34119DG U4083IL34119DT替代MC34119DR2G U4083 IL5009N替代DBL5009IL5009D替代DBL5009ILA1062N替代TEA1062ILA1062D替代TEA1062ILA1062DT替代TEA1062ILA1062AN替代TEA1062ANILA1062AD替代TEA1062AILA1062ADT替代TEA1062ATIL6965N替代GL6965IL6965D替代GL6965IL6965DT替代GL696518)IKSMEI电话机铃声ICIL2411N替代KA2411IL2411D替代KA2411IL2411DT替代KA2411IL2418N替代GLA2418 L1240IL2418D替代GLA2418 L1240IL2418DT替代GLA2418 L1240IL6840AN替代GL6840A GL6840BIL6840AD替代GL6840A GL6840B19)IKSMEI运算放大器IL358N替代LM358P LM358NIL358D替代LM358D LM358DGIL358DT替代LM358DT LM358DR2GIL2904N替代LM2904NIL2904D替代LM2904D LM2904DGIL2904DT替代LM2904DT LM2904DR LM2904DR2GIL4558N替代LM4558 NJM4558IL4558D替代LM4558 NJM4558IL4558DT替代LM4558 NJM4558IL1458N替代NJM1458DIL1458D替代NJM1458MIL1458DT替代NJM1458MIL4560N替代NJM4560DIL4560D替代NJM4560MIL4560DT替代NJM4560MIL4580N替代NJM4580D LM883IL4580D替代NJM4580M LM883IL4580DT替代NJM4580M-TE1 LM883 KL103N替代TSM103KL103D替代TSM103KL103DT替代TSM103IL324N替代LM324IL324D替代LM324IL324DT替代LM324IL2902N替代LM2902 NJM2902 IL2902D替代LM2902 NJM2902 IL2902DT替代LM2902 NJM2902 IL1776CN替代MC1776CP1IL1776CAN替代MC1776CP1IL1776CD替代MC1776CDIL1776CAD替代MC1776CDIL9002N替代OP07IL9002D替代OP07IL9002DT替代OP07IL9002AN替代OP07AIL9002AD替代OP07AIL9002ADT替代OP07AIL8515替代AD8515IL8541替代AD8541IL8615替代AD861520)IKSMEI双差分比较器IL393N替代LM393N LM393PIL393D替代LM393D LM393DGIL393DT替代LM393DT LM393DR LM393DR2GIL2903N替代LM2903N LM2903PIL2903D替代LM2903D LM2903DR LM2903DGIL2903DT替代LM2903DT LM2903DR LM2903DG2G IL339N替代LM339N LM339PIL339D替代LM339DIL339DT替代LM339DT LM339DR LM339DR2GIL2901N替代LM2901P LM2901NIL2901D替代LM2901D LM2901DGIL2901DT替代LM2901DT LM2901DR LM2901DR2G21)IKSMEI音频芯片IL34119N替代MC34119PIL34119D替代MC34119DGIL34119DT替代MC34119DR2GIL386N替代LM386IL386D替代LM386IL386DT替代LM386ILA7050N替代TDA7050 ILA7052N替代TDA7052 ILA7053N替代TDA7053 KL7496LN替代TDA7496L ILA7056替代TDA7056 ILA7056B替代TDA7056B ILA1519B替代TDA159B ILA1519B1替代TDA159B ILA1519B1Q替代TDA159B KL6270N替代SL6270KL6270D替代SL6270KL3340N替代MC3340KL3340D替代MC3340KL2822MN替代TDA2822M KL2822MD替代TDA2822M IL5009N替代DBL5009IL5009D替代DBL5009IK7437Q替代TDA743722)IKSMEI日历时钟芯片时钟ICINA8583N替代PCF8583PILC555N替代NJM555 GLC555 NE555ILC555D替代NJM555 GLC555 NE555ILC555DT替代NJM555 GLC555 NE555ILC556N替代GLC556ILC556D替代LM556CMX NE556 GLC556ILC556DT替代LM556CMX NE556 GLC556IN1307N替代DS1307IN1307D替代DS1307IN1307DT替代DS1307IN1363N替代DS1208IN1363D替代DS1208深圳市奥伟斯科技有限公司是一家专注触摸芯片,单片机,电源管理芯片,语音芯片,场效应管,显示驱动芯片,网络接收芯片,运算放大器,红外线接收头及其它半导体产品的研发,代理销售推广的高新技术企业。

温馨提示本用户手册由《泥人通信模块开发平台》开发团队编写与审核，本手册仅适用于由泥人团队开发的MCP2515_CAN模块。

本手册将持续更新于泥人的博客，请各位用户持续关注，同时泥人团队将努力开发出更多适合电子开发人员、在校同学们学习的通信模块。

让我们共同努力，迎接物联网时代的到来！！目录一、泥人MCP2515_CAN模块简介 (1)二、模块排针功能表 (1)三、调试方法 (2)1、MCP2515_CAN模块测试硬件准备、接线方法 (2)2、MCP2515_CAN模块环回模式测试 (2)3、MCP2515_CAN模块收发标准帧、拓展帧数据测试 (4)一、泥人MCP2515_CAN模块简介MCP2515_CAN模块是泥人团队设计的一款基于MCP2515CAN控制器和TJA1050CAN收发器的CAN总线模块。

模块电路设计巧妙、合理，电路板精美、大方，单片机程序简单、易懂。

模块由5V DC电源供电，通过SPI协议，可轻松用在传统51单片机、新型51单片机、ARM等控制器上。

模块基本参数：●支持CAN V2.0B技术规范，通讯速率为1Mb/S；●0~8字节长的数据字段；●标准帧、拓展帧和远程帧；●模块5V DC电源供电，SPI协议控制；●120欧姆终端电阻，可通过短路帽短路J1选择；●模块尺寸：4*2.8CM。

二、模块排针功能表排针标识功能说明VCC5V电源输入引脚GND电源地引脚CS SPI SLAVE选择引脚(低电平有效)SO SPI主机输入从机输出引脚SI SPI主机输出从机输入引脚SCLK SPI时钟引脚INT MCP2515中断引脚J1120R电阻终端选择J2CANH、CANL KF301-2P座输出J3CANH、CANL排针输出三、调试方法1、MCP2515_CAN模块测试硬件准备、接线方法1)、硬件准备a.泥人MCP2515_CAN模块；b.杜邦线若干；c.51单片机核心板(系统板)、开发板；d.5V DC电源(单片机核心有5V电源输出测不用准备)。

MCP2551是一种高速CAN容错设备，用作CAN协议控制器和物理总线之间的接口。

MCP2551器件提供差分发送和接收具有CAN协议控制器的功能，并与ISO-11898标准完全兼容，包括24V要求。

它将以高达1 Mb / s的速度运行。

Features Package Types•支持1 Mb / s的操作•实施ISO-11898标准物理层要求•适用于12V和24V系统•外部控制的斜率，以减少RFI排放•检测TXD输入上的接地故障（永久占优）•上电复位和电压掉电保护•节点未上电或掉电事件不会干扰CAN总线•低电流待机操作•防止短路损坏条件（电池正负电压）•防止高压瞬变•自动热关机保护•最多可以连接112个节点•由于采用差分总线，因此具有较高的抗噪能力•温度范围：-工业（I）：-40°C至+ 85°C-扩展（E）：-40°C至+ 125°CBlock DiagramMCP2551NOTES:1.0 DEVICE OVERVIEW 1.4 Operating ModesMCP2551是高速CAN 容错设备，用作CAN 协议控制器和物理总线之间的接口。

MCP2551器件为CAN 协议控制器提供差分发送和接收功能，并且与ISO-11898标准完全兼容，包括24V 要求。

它将以高达1Mb / s 的速度运行。

RS 引脚允许三种工作模式 已选择： • 高速 •坡度控制 • 支持这些模式总结在表1-1中。

.通常，CAN 系统中的每个节点都必须具有将CAN 控制器生成的数字信号转换为适合通过总线电缆传输（差分输出）的信号的设备。

它还在CAN 控制器和高压尖峰之间提供了一个缓冲，该尖峰可由外部源（EMI ，ESD ，电瞬变等）在CAN 总线上生成。

1.1 Transmitter Function在高速或斜率控制模式下，可对CANH 和CANL 信号的驱动器进行内部调节，以提供受控的对称性，以最大程度地降低EMI 辐射。

产品概述WS3085是5V、半双工、±15kV ESD保护的RS-485/RS-422收发器电路，电路内部包含一路驱动器和一路接收器。

WS3085具有增强的摆率限制，有助于降低输出EMI以及不匹配的终端连接引起的反射，实现500kbps的无误码数据传输。

WS3085芯片接收器输入阻抗为1/8单位负载，允许多达256个收发器挂接在总线上，实现半双工通信。

所有驱动器输出提供±15kV人体模式ESD保护，采用8脚SO封装，工作于-40℃至+125℃温度范围。

产品特性●5V电源电压●增强摆率限制有助于降低输出EMI以及不匹配的终端连接引起的反射，实现500kbps的无误码数据传输●通信端口提供±15kV人体模式ESD保护●Fail-safe功能●具有1/8单位负载，多达256个收发器可挂接在同一总线上●采用8脚SO封装典型应用●隔离型RS-485接口●电表●工业控制●工业电机驱动●自动HVAC系统极限参数(所有电压参考点为地)供电电压…………………………………+7V DE,RE,DI……………………-0.3V to+7V A,B………………………………-9V to+14V 8管脚SO(-5.9mW/°C+70°以上)……471mW 工作温度范围……………-40°C to+125°C 结温……………………………………+150°C 存储温度范围……………-65°C to+150°C焊锡温度(10秒)……………………+300°C封装说明—直流特性(VCC=+5V±5%，环境温度为+25°C.)参数符号条件最小典型最大单位驱动器差分驱动输出(无负载)V OD1图15伏差分驱动输出V OD2图1,R=50Ω(RS-422) 2.0伏图1,R=27Ω(RS-485) 1.5差分输出幅值变化(注1)∆V OD图1,R=50ΩorR=27Ω0.2伏驱动器输出共模电平V OC图1,R=50ΩorR=27Ω13伏驱动器输出共模电平变化∆V OC图1,R=50ΩorR=27Ω0.2伏输入高电平V IH1DE,DI，RE 2.0伏输入低电平V IL1DE,DI,RE0.8伏输入迟滞V HYS DE,DI,RE100毫伏输入电流I IN1DE,DI,RE(注2)±2微安输入电流(A与B)I IN4DE=GND,V CC=GNDor5.25VV IN=12V125微安V IN=-7V-75驱动器输出短路电流I OD1-7V≤V OUT≤V CC-100毫安0V≤V OUT≤12V100毫安0V≤V OUT≤V CC±25毫安接收器接收器差分输入阈值电压V TH-7V≤V CM≤+12V-200-50毫伏接收器差分输入阈值电压迟滞∆V TH60毫伏接收器输出高电平V OH I O=-4mA,V ID=1V4伏接收器输出低电平V OL I O=4mA,V ID=-1V0.4伏注1:∆VOD和∆VOC是当DI改变时VOD和VOC的各自变化量。

MCP2515 SJA1000通讯调试记录一、CAN总线CAN是控制器局域网络(ControllerArea Network, CAN)的简称，是由研发和生产汽车电子产品著称的德国BOSCH公司开发了的，并最终成为国际标准（ISO 11898）。

SJA1000是飞利浦公司一款并行接口的CAN 协议控制器，为了减少IO口资源占用，Microchip推出SPI 接口CAN协议控制器,型号：MCP2515。

这两款芯片都支持CANV2.0B 技术规范，能发送和接收标准和扩展数据帧以及远程帧。

CAN电平：CAN数据格式：标准帧扩展帧远程帧（省略）二、原理图2.1、MCP2515的原理图2.2、SJA1000的原理图三、调试思路3.1、SPI接口调试3.2、CAN接口调试第一步：配置CLKOUT输出（CANCTRL寄存器配置CLKEN 和分频系数），通过示波器观察CLKOUT引脚输出。

确认MCP2515受控。

第二步：环路测试（自发自收）首先MCP2515配置成环路模式，下面是验证环路测试1、配置RXB0禁止滤波屏蔽标识符功能1、收发功能是否正常。

验证：RXB0接收数据(可以读取接收缓冲区获取)和发送数据对比，是否一致。

2、开启CANINTE.TX0IE、CANINTE.RX0IE中断，监测/INT和/RX0B 引脚电平变化。

理论上：1）成功发送数据，TXB0CTRL.TXREQ由1变成0和/INT引脚产生中断，且CANINTF.TX0IF发送中断标志位置1。

2）成功接收数据，/INT引脚产生中断，且CANINTF.RX0IF发送中断标志位置1。

同时RX0BF引脚出现低电平（前提使能RX0BF 接收缓冲区满中断引脚，BFPCTRL.BxBFE和BFPCTRL.BxBFM 置1）2、配置RXB0使能滤波屏蔽标识符功能（11位标准标识符）1、发送两组数据帧：先发送不符合滤波码的数据帧，然后发送符合滤波码的数据帧。