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  • 8阶开关电容滤波器MAX29X系列的应用设计

    MAX29X是美国MAXIM公司生瓣的8阶开关电容低通滤波器,由于价格便宜、使用方便、设计简单,在通讯、信号自理等领域得到了广泛的应用。本文就其工作原理、电气参数、设计注意事项等问题作了讨论,具有一定的实用参考价值。关键词:开关电容、滤波器、设计 1 引言     开关电容滤波器在近些年得到了迅速的发展,世界上一些知名的半导体厂家相继推出了自己的开头电容滤波器集成电路,使形状电容滤波器的发展上了一个新台阶。     MAXIM公司在模拟器件生产领域颇具影响,它生产MAX291/292/293/294/295/296/297系列8阶低通开关电容滤波器由于使用方便(基本上不需外接元件)、设计简单(频率响应函数是固定的,只需确定其拐角频率即截止频率)、尺寸小(有8-pin    DIP封装)等优点,在ADC的反混叠滤波、噪声分析、电源噪声抑制等领域得到了广泛的应用。     MAX219/295为巴特活思(型滤波器,在通频带内,它的增益最稳定,波动小,主要用于仪表测量等要求整个通频带内增益恒定的场合。MAX292/296为贝塞尔(Bessel)滤波器,在通频带内它的群时延时恒定的,相位对频率呈线性关系,因此脉冲信号通过MAX292/296之后尖峰幅度小,稳定速度快。由于脉冲信号通过贝塞尔滤波器之后所有频率分量的延迟时间是相同的,故可保证波形基本不变。关于巴特活和贝塞尔滤波器的特性可能图1来说明。图1的踪迹A为加到滤波器输入端的3kHz的脉冲,这里我们把滤波器的截止频率设为10kHZ。踪迹B通过MAX292/296后的波形。从图中可以看出,由于MAX292/296在通带内具有线性相位特性,输出波形基本上保持了方波形状,只是边沿处变圆了一些。方波通过MAX291/295之后,由于不同频率的信号产生的时延不同,输出波形中就出现了尖峰(overshoot)和铃流(ringing)。     MAX293/294/297为8阶圆型(Elliptic)滤波器,它的滚降速度快,从通频带到阻带的过渡带可以作得很窄。在椭圆型滤波器中,第一个传输零点后输出将随频率的变高而增大,直到第二个零点处。这样几番重复就使阻事宾频响呈现波浪形,如图2所示。阻带从fS起算起,高于频率fS处的增益不会超过fS处的增益。在椭圆型滤波中,通频带内的增益存在一定范围的波动。椭圆型滤波器的一个重要参数就是过渡比。过渡比定义为阻带频率fS与拐角频率(有时也等同为截止频率)由时钟频率确定。时钟既可以是外接的时钟,也可以是自己的内部时钟。使用内部时钟时只需外接一个定时用的电容既可。     在MAX29X系列滤波器集成电路中,除了滤波器电路外还有一个独立的运算放大器(其反相输入端已在内部接地)。用这个运算放大器可以组成配合MAX29X系列滤波器使用后的滤波、反混滤波等连续时间低通滤波器。     下面归纳一下它们的特点:     ●全部为8阶低通滤波器。MAX291/MAX295为巴特沃思滤波器;MAX292/296为贝塞尔滤波器;MAX293/294/297为椭圆滤波器。     ●通过调整时钟,截止频率的调整范围为:0.1Hz~25kHz(MAX291/292/293*294);0.1Hz~kHz(MAX295/296/297)。     ●既可用外部时钟也可用内部时钟作为截止频率的控制时钟。     ●时钟频率和截止频率的比率:10∶1(MAX291/292/293/294);50∶1(MAX295/296/297)。     ●既可用单+5V电源供电也可用±5V双电源供电。     ●有一个独立的运算放大器可用于其它应用目的。     ●8-pin DIP、8-pin SO和宽SO-16多种封装。2 管脚排列和主要电气参数     MAX29X系列开头电容滤波器的管脚排列如图3所示。     管脚功能定义如下:     CLK:时钟输入。     OP OUT:独立运放的输出端。     OP INT:独立运放的同相输入端。     OUT:滤波器输出。     IN:滤波器输入。     V-:负电源 。双电源供电时搛-2.375~-5.5V之间的电压,单电源供电时V--=-V。     V+:正电源。双电源供电时V+=+2.35~+5.5V,单电源供电时V+=+4.75~+11.0V。     GND:地线。单电源工作时GND端必须用电源电压的一半作偏置电压。     NC:空脚,无连线。     MAX29X的极限电气参数如下:     电源(V+~V-):12V     输入电压(任意脚):V--0.3V≤VIN≤V++0.3V     连续工作时的功耗:8脚塑封DIP:727mW;8脚SO:471mW;16脚宽SO:762mW;8脚瓷封DIP:640mW。     工作温度范围:MAX29-C-:0℃~+70℃;MAX29-E-:-40℃~+85℃;MAX29-MJA:-55℃~+125℃;保存温度范围:-65℃~+160℃;焊接温度(10秒):+300℃;     大多数的形状电容滤波器都采用四节级连结构,每一节包含两个滤波器极点。这种方法的特点就是易于设计。但采用这种方法设计出来的滤波器的特性对所用元件的元件值偏差很敏感。基于以上考虑,MAX29X系列用带有相加和比例功能的开关电容持了梯形无源滤波器,这种方法保持了梯形无源滤波器的优点,在这种结构中每个元件的影响作用是对于整个频率响应曲线的,某元件值的误差将会分散到所有的极点,因此不值像四节级连结构那样对某一个极点特别明显的影响。3 MAX29X的频率特性     MAX29X的频率特性如图4所示。图中的fs都假定为1kHz。4 设计考虑     下面对MAX29X系列形状电容滤波器的使用做些讨论。4.1 时钟信号     MAX29X系列开头电容滤波器推荐使用的时钟信号最高频率为2.5MHz。根据对应的时钟频率和拐角频率的比值,MAX291/MAX292/MAX293/MAX294的拐角频率最高为25kHz.MAX295/MAX296/MAX297的拐角频率最高为50kHz 。     MAX29X系列开关电容滤波器的时钟信号既可幅外部时钟直接驱动也可由内部振荡器产生。使用外部时钟时,无论是采用单电源供电还是双电源供电,CLK可直接和采用+5V供电的CMOS时钟信号发生器的输出相连。通过调整外部时钟的频率,可完成滤波器拐角的实时调整。     当使用内部时钟时,振荡器的频率由接在CLK端上的电容VCOSC决定:     fCOSC (kHz)=105/3COSC (pF) 4.2 供电     MAX29X系列开关电容滤波器既可用单电源工作也可用双电源工作。双电源供电时的电源电压范围为±2.375~±5.5V。在实际电路中一般要在正负电源和GND之间接一旁路电容。     当采用单电源供电时,V-端接地,而GND端要通过电阻分压获得一个电压参考,该电压参考的电压值为1/2的电源电压,参见图5。4.3 输入信号幅度范围限制     MAX29X允许的输入信号的最大范围为V--0.3V~V++0.3V。一般情况下在+5V单电源供电时输入信号范围取1V~4V,±5V双电源供电时,输入信号幅度范围取±4V。如果输入信号超过此范围,总谐波失真THD和噪声就大大增加;同样如果输入信号幅度过小(VP-P<1V),也会造成THD和噪声的增加。4.4 独立运算放大器的用法     MAX29X中都设计有一个独立的运算放大器,这个放大器和滤波器的实现无直接关系,用这个放大器可组成一个一阶和二阶滤波器,用于实现MAX29X之前的反混叠滤波功能鄞MAX29X之后的时钟噪声抑制功能。这个运算放大器的反相端已在内部和GND相连。     图6是用该独立运放组成的2阶低通滤波器的电路,它的拐角频率为10kHz,输入阻抗为22Ω,可满足MAX29X形状电容滤波器的最小负载要求(MAX29X的输出负载要求不小于20kΩ)可以通过改变R1、R2、R3、C1、C2的元件值改变拐角频率。具体的元件值和拐角频率的对应关系参见表1。

    标签: 29X MAX 29 8阶

    上传时间: 2013-10-18

    上传用户:macarco

  • P89LPC912英文资料

    The P89LPC912/913/914 are single-chip microcontrollers in low-cost 14-pin packages, based on a high performance processor architecture that executes instructions in two to four clocks, six times the rate of standard 80C51 devices. Many system level functions have been incorporated into the P89LPC912/913/914 in order to reduce component count, board space, and system cost.

    标签: P89 LPC 912 89

    上传时间: 2013-10-12

    上传用户:司令部正军级

  • C8051F020

    HIGH SPEED 8051 μC CORE - Pipe-lined Instruction Architecture; Executes 70% of Instructions in 1 or 2 System Clocks - Up to 25MIPS Throughput with 25MHz System Clock - 22 Vectored Interrupt Sources MEMORY - 4352 Bytes Internal Data RAM (256 + 4k) - 64k Bytes In-System Programmable FLASH Program Memory - External Parallel Data Memory Interface – up to 5Mbytes/sec DIGITAL PERIPHERALS - 64 Port I/O; All are 5V tolerant - Hardware SMBusTM (I2CTM Compatible), SPITM, and Two UART Serial Ports Available Concurrently - Programmable 16-bit Counter/Timer Array with 5 Capture/Compare Modules - 5 General Purpose 16-bit Counter/Timers - Dedicated Watch-Dog Timer; Bi-directional Reset CLOCK SOURCES - Internal Programmable Oscillator: 2-to-16MHz - External Oscillator: Crystal, RC, C, or Clock - Real-Time Clock Mode using Timer 3 or PCA SUPPLY VOLTAGE ........................ 2.7V to 3.6V - Typical Operating Current: 10mA @ 25MHz - Multiple Power Saving Sleep and Shutdown Modes 100-Pin TQFP (64-Pin Version Available) Temperature Range: –40°C to +85°C

    标签: C8051F020

    上传时间: 2013-10-12

    上传用户:lalalal

  • H.264高清编解码器的片上系统MG3500

    MG3500SoC是支持H.264高清编解码器的片上系统,内部集成一个嵌入式ARM926处理器,支持高清H.264编解码、MPEG鄄2解码和JPEG编解码。介绍了MG3500SoC的主要性能特点、引脚排列、主要接口功能及在DVR上的应用,以及MG3500SoC及其周围器件的硬件设计,提出了在设计中应注意的问题。 Abstract:  The MG3500System-on-Chip(SoC)is high definition(HD)H.264codec,including ARM926-EJ processor,H.264encoder/decoder,MPEG2decoder and JPEG/MJPEG encoder/decoder.The features,pin assignments,interfaces and the typical application of MG3500in DVR are introduced in this paper.The application hardware circuit between the MG3500SoC and peripheral device are given,the questions which the syetem design needs to pay attention are explained.

    标签: 3500 264 MG 编解码器

    上传时间: 2013-11-12

    上传用户:elinuxzj

  • CAT93C46 器件数据手册

    The CAT93C46 is a 1 kb Serial EEPROM memory device which isconfigured as either 64 registers of 16 bits (ORG pin at VCC) or 128registers of 8 bits (ORG pin at GND). Each register can be written (orread) serially by using the DI (or DO) pin. The CAT93C46 features aself−timed internal write with auto−clear. On−chip Power−On Resetcircuit protects the internal logic against powering up in the wrongstate.

    标签: CAT 93C C46 93

    上传时间: 2013-11-20

    上传用户:ynzfm

  • FET430PIF自制资料

    The MSP-FET430PIF is a Parallel Port interface (does not include target board) that is used to program and debug MSP430 FET tools and test boards through the JTAG interface. This interface is included in our FET tools, but sold without the development board. This interface uses a Parallel PC Port to communicate to the Debugger Software (IAR Kickstart software included) running on the PC. The interface uses the standard 14 pin header to communicate to the MSP430 device using the standard JTAG protocol. The flash memory can be erased and programmed in seconds with only a few keystrokes, and since the MSP430 flash is extremely low power, no external power supply is required. The tool has an integrated software environment and connects directly to the PC which greatly simplifies the set-up and use of the tool. The flash development tool supports development with all MSP430 flash parts. Features MSP430 debugging interface to connect a MSP430-Flash-device to a Parallel port on a PC Supports JTAG debug protocol (NO support for Spy-Bi-Wire (2-wire JTAG) debug protocol, Spy-Bi-Wire (2-wire JTAG) is supported by MSP-FET430UIF) Parallel Port cable and a 14-conductor target cable Full documentation on CD ROM Integrated IAR Kickstart user interface which includes: Assembler Linker Limulator Source-level debugger Limited C-compiler Technical specifications: Backwardly compatable with existing FET tool boards.

    标签: FET 430 PIF

    上传时间: 2013-10-26

    上传用户:fengweihao158@163.com

  • MSP430 USB JTAG自制资料

    The MSP-FET430U14 is a powerful flash emulation tool to quickly begin application development on the MSP430 MCU. It includes USB debugging interface used to program and debug the MSP430 in-system through the JTAG interface or the pin saving Spy Bi-Wire (2-wire JTAG) protocol. The flash memory can be erased and programmed in seconds with only a few keystrokes, and since the MSP430 flash is ultra-low power, no external power supply is required. The debugging tool interfaces the MSP430 to the included integrated software environment and includes code to start your design immediately.  The MSP-FET430UIF development tools supports development with all MSP430 flash devices

    标签: JTAG MSP 430 USB

    上传时间: 2013-10-28

    上传用户:13691535575

  • Agilent Wedge for Probing High

    IntroductionAs chip designers pack more functions into ICs,pin counts continue to grow and the space betweenpins keeps shrinking. Pin spacings of 0.5 mm and0.65 mm are not at all uncommon. The power ofthese new ICs is wonderful, to be sure, but trou-bleshooting them can be a chore because connect-ing scopes and logic analyzers has become muchmore difficult and less dependable.

    标签: Agilent Probing Wedge High

    上传时间: 2013-10-22

    上传用户:蒋清华嗯

  • PCA9536—4位I2C和SMBus IO口产品数据手册

    The PCA9536 is an 8-pin CMOS device that provides 4 bits of General Purpose parallel Input/Output (GPIO) expansion for I2C-bus/SMBus applications and was developed to enhance the NXP Semiconductors family of I2C-bus I/O expanders. I/O expanders provide a simple solution when additional I/O is needed for ACPI power switches, sensors, push buttons, LEDs, fans, etc.

    标签: SMBus 9536 PCA I2C

    上传时间: 2013-10-27

    上传用户:w230825hy

  • PCA9534—带中断的低功耗8位I2C和SMBus IO口

    The PCA9534 is a 16-pin CMOS device that provide 8 bits of General Purpose parallel Input/Output (GPIO) expansion for I2C-bus/SMBus applications and was developed to enhance the NXP Semiconductors family of I2C-bus I/O expanders. The improvements include higher drive capability, 5 V I/O tolerance, lower supply current, individual I/O configuration, 400 kHz clock frequency, and smaller packaging. I/O expanders provide a simple solution when additional I/O is needed for ACPI power switches, sensors, push buttons, LEDs, fans, etc.

    标签: SMBus 9534 PCA I2C

    上传时间: 2013-11-17

    上传用户:vodssv