16 位双通道da转换器评审报告 - 重点产品简介

D/A转换器的性能指标分析
（资料来源：中国联保网）
简介
D/A转换器的主要特性指标包括以下几方面：
分辨率
指最小输出电压(对应的输入数字量只有最低有效位为“1”)与最大输出电压(对应的输入数字量所有有效位全为“1”)之比。

如N位D/A转换器，其分辨率为1/(2^N-
1)。

在实际使用中，表示分辨率大小的方法也用输入数字量的位数来表示。

线性度
用非线性误差的大小表示D/A转换的线性度。

并且把理想的输入输出特性的偏差与满刻度输出之比的百分数定义为非线性误差。

转换精度
D/A转换器的转换精度与D/A转换器的集成芯片的结构和接口电路配置有关。

如果不考虑其他D/A转换误差时，D/A的转换精度就是分辨率的大小，因此要获得高精度的D/A转换结果，首先要保证选择有足够分辨率的D/A转换器。

同时D/A转换精度还与外接电路的配置有关，当外部电路器件或电源误差较大时，会造成较大的D/A转换误差，当这些误差超过一定程度时，D/A转换就产生错误。

在D/A转换过程中，影响转换精度的主要因素有失调误差、增益误差、非线性误差和微分非线性误差。

16位ADC转换芯片MAX195中文资料16位ADC转换芯片MAX195中文资料16位ADC转换芯片MAX195中文资料MAX195是16位逐次逼近方式的ADC。

它将高精度、高速度、低电源功耗(消耗电流仅10μA)的关闭方式等性能结合在一起。

内部校准电路对线性度与偏置误差进行校正，所以无需外部调整便可达到全部额定的性能指标。

电容性的DAC结构使之具有特有的85kbps跟踪/保持功能，变换时间仅需9．4μs。

三态串行数据输出及引脚可选的单极性(0～VREF)或双极性(－VREF～＋VREF)的输入范围使之可广泛应用于便携式仪表、医用信号采集及多传感器测量等系统中。

1 MAX195引脚及说明MAX195有16个引脚，其排列如图1所示2 MAX195转换原理及时序MAX195片内含有电容性的数字模拟变换器(DAC)，可对模拟输入进行特有的跟踪和保持，再由逐次逼近寄存器和比较器，在变换时钟CLK的控制下，把模拟输入变换成16位数字代码，通过片内的串行接口输出。

芯片内的接口和控制逻辑易与大多数微处理器相连，减少了对外部元件的需求。

其变换及数据输出的时序如图2所示。

由时序可以看出，在前次变换结束至少经过三个或三个以上时钟周期后，变换在有效后的CLK时钟下降沿开始(MAX195对信号的跟踪/保持、采集需4个CLK周期)。

同时，在下一个时钟下降沿变高，待经过9．4μs(CLK为1．7MHz)变换结束后，由高变低，给出变换结束信号，可送去中断或被查询。

变换结束由三态串行口DOUT端输出。

在变换期间由CLK控制读出数据，也可在两次变换之间由SCLK串行时钟定时读出数据，最高速率可达5Mbps。

图2中所示情况为后者，在保持低电平后，在每个SCLK的下降沿，DOUT端按MSB在前的次序输出一位数据，否则，DOUT处于高阻态。

3 MAX195的校准MAX195在上电时自动进行校准。

为了减少噪声的影响，每一个校准试验进行多次并对其结果求平均值。

AD7656—16位同步采样双极ADC转换器功能：6路独立的16位AD6路真双极模拟量输入引脚/软件可选择的范围：±10V，±5V快速通过率250KSPS指定Vcc为4.5V～5.5V低功耗以5V 供应250 kSPS的160 mW宽的输入带宽: 输入频率为100kHz时信噪比为85dB在片参考和参考缓冲器并行和串行接口高速串行接口SPI/ QSPI/μWire/DSP可兼容无流水线延迟备用模式：最大0.5μA64LQFP封装应用电力线检测系统仪器和控制系统多轴定位系统一般描述AD7656芯片包含6路16位快速、低功耗、逐步逼近ADC。

元件工作电源4.5V～5.5V，具有250kSPS通过率特性。

元件具有低噪音、宽带宽跟踪保持放大器，能够操作输入频率达到8MHz。

转换过程和数据采集由 CONVST 信号和一个内部振荡器控制。

三个CONVST引脚允许三对ADC独立的同时采样。

AD7656具有高速的并行和串行接口，可以与微处理器和DSP接口。

AD7656具有菊花链特性，允许多个ADC与一个串行接口连接。

元件没有流水线延迟。

AD7656在±10V范围内能提供真双极的输入信号。

AD7656包含一个2.5V内部参考电压，也能采用一个外部考电压，如果V REF引脚供应一个3V外部叁考电压, ADC能供给真双极±12V模拟量输入范围。

参照这±12V输入范围，需要给V DD和V SS提供±12V电压。

产品特点1 6路16位250kSPS ADC2 6路真双极高阻抗模拟量输入3 具有一个并行和一个高速串行接口。

引脚功能描述术语积分非线性这是从一条直线横传过ADC传递函数终点的最大的偏差。

传递函数终点是零刻度时，1/2LSB点低于最初代码转换，是满刻度时，1/2LSB点超出最后代码转换。

差分非线性这是一个在ADC转换中任何两个邻近代码的LSB转换的测量值与理论值差。

16位串行A／D转换器MAXIM公司推出的16位逐次逼近型A／D转换器，具有体积小、功耗低、转换速度快、精度高等优点。

串行接口的特点使其与微控制器直接相连，大大简化了输人通道的设计。

芯片的主要性能如下：●逐次比较型，分辨率16位；●三态串行数据输出口，与SPI／QSPI和Micr。

wlre兼容；●单极性和双极性模拟输人；●片内跟踪／保持功能；●具有线性和失调校准电路；●转换时间最小值为9．4μs；●采样速率为100000次／s；●积分非线性误差为±0．003%FSR；●最大微分非线性误差为±0．00156%；●最大功耗为80mW。

该芯片内部由DAC逐次逼近寄存器、采样比较器、10个校准DAC、串行接口及控制逻辑等组成。

内部的逐次逼近寄存器（SAR），用以将模拟信号转变成16位二进制数码串行输出，输出时高位（MSB）在前。

MAX195的数据接口包括三态输入信号，该引脚悬浮时为双极性输人，接＋5V时为单极性输人，接地时为关闭模式。

MAX195的启动信号变低后开始模数转换。

转换结束时，经过一个转换时钟CLK后转换结束（）信号变低。

MAX195采用模拟电源和数字电源分开结构，大大降低了数字－噪声耦合的影响。

MAX195在上电时自动校准，校准需要14000个时钟周期；当复位信号RESET由低升高时，MAX195启动一次校准。

MAX195为小型16脚DIP和SO封装，如图4－6－7所示为MAX195的引脚排列图。

表⒋6－2列出了各引脚的功能。

MAX195与单片机连接时，有两种转换传输方式：同步转换传输方式和异步转换传输方式。

同步转换传输方式是转换期间数据传送以CLK时钟频率输出，即转换与传送同时进行；异步转换传输方式是在一次转换结束以后，数据传送以SCLK时钟频率输出，即转换与传送异步进行。

为了提高转换精度，降低输人噪声，将参考输人REF与＋5V模拟电源输入端VDDA相连，并在REF 引脚上接入47 pF的旁路电解电容，并与0．1ptF的独石电容并联。

实验十六 D/A 、D/A 转换器一、实验目的1. 了解 A/D 和 D/A 转换器的基本工作原理和基本结构；2. 掌握大规模集成 A/D 和 D/A 转换器的功能及其典型应用。

二、实验仪器1．双踪示波器2．万用表三、实验原理本实验将采用大规模集成电路 DAC0832 实现 D/A 转换 ,ADC0809 实现 A/D 转换 , 通过 PC 机来实现转换过程。

1.D/A 转换器 DAC0832DAC0832 是采用 CMOS 工艺制成的单片电流输出型 8 位数 / 模转换器 。

器件的核心部分采用倒 T 型电阻网络的 8 位 D/A 转换器 , 由倒 T 型 R-2R 电阻网络、模拟开关、运算放大器和参考电压 V REF 四部分组成。

运算的输出电压为)222(2002211D D D R R V U n n n n n FREF O +⋅⋅⋅⋅⋅⋅⋅++-=---- （16-1） 由上式可见 , 输出电压 Uo 与输入的数字量成正比 , 这就实现了从数字量向模拟量的转换 , 数字量通过 PC 机来输入。

一个 8 位的 D/A 转换器 , 它有 8 个输入端 , 每个输入端是 8 位二进制数的一位 ,有一个模拟输出端 , 输入可有 28=256 个不同的二进制组态 , 输出为 256 个电压之一 ,即输出电压不是整个电压范围内任意值 , 而只能是256个可能值。

图 16 - l 所示为 DAC0832 的引脚图。

图 16-1 DAC0832 引脚图D0-D7: 数字信号输入端 , 我们通过 PC 机用软件来发送数字信号。

ILE ： 输入寄存器允许 , 高电平有效。

CS: 片选信号 , 低电平有效WR1: 写信号 1, 低电平有效XFER: 传送控制信号 , 低电平有效WR2： 写信号 2, 低电平有效IOUT1,IOUT2：DAC 电流输出端Rfb: 反馈电阻 , 是集成在片内的外接运放的反馈电阻。

ManualA16 AEprofessional 16 channel AD/DA converterFERROFISHadvanced audio applications© Ferrofish GmbH Version 1.1Introduction IntroductionThank you very much for choosing to purchase this product.The A16 AE can convert simultaneously, 16 audio channelsfrom digital to analogue (DA) and 16 audio channels fromanalogue to digital (AD). You can use ADAT as digitalinterface, or MADI (optional).The two TFT screens display the levels of all inputs andoutputs in high resolution.The A16 AE combines high quality 'audiophile' conversioncharacteristics with flexible routing / I/O that fits seamlessly into your professional studio.Software und UpdatesFor further information and current drivers and software please visit our website: www.ferrofish.de1OperationOperationThe A16 AE can be controlled via three front panel buttonsSAMPLE RATE, SYNCHRONIZATION and MENU.Alternatively, you can use your PC to remote control the A16 AE using the MIDI interface.In the main screen the frequency and synchronization can be set using the corresponding buttons.Pressing MENU opens the main menu, where you cannavigate with the SAMPLE RATE andSYNCHRONIZATION functions.Pressing MENU again will then confirm the selected function choice.main screenThe TFT main screen shows all 32 channels of the A16 AE as well as the basic settings of sample rate and the input signal from which the A16 AE takes it's timing.2Digital InterfacesDigital InterfacesEvery digital device requires a sampling rate for properoperation. The A16 AE can either generate such sampling rate itself (Master) or receive it from another device (Slave).It is important that all devices within a digital domain workwith the same sampling rate. For that reason there has to beexactly one master generating the sampling rate, while all other devices have to refer to this sampling rate as a slave.It is not possible to connect two master devices witheach other, even if set to the same sampling rate.Because the units are not synchronized, even thesmallest variations of the sampling rate would causefailures.With the SYNCHRONIZATION button you can selectwhether the device shall be master or slave to MADI, ADAT or BNC.If the corresponding field in the TFT is green, theA16 AE found a valid sampling rate at the selected input.In case you have set the A16 AE as MASTER, it will generate the sampling rate. Now you can select the frequency between 32kHz and 96kHz via SAMPLE RATE.3Digital InterfacesADATADAT is probably the most common digital audio connection used in multichannel interfaces. Since an ADAT cable cantransmit 8 channels only, the A16 AE has two pairs of thisinterface. The number of available channels is only half or onlya quarter in case of higher frequencies:* only supported with installed MADI option.If you use ADAT for higher frequencies, the first 8 (or 4)outputs will be used only. The remaining outputs will repeat the signal of the first 8 (or 4) outputs. Only the first 8 (or 4)channels will be used as analog inputs respectively.Set the desired mode using the SAMPLE RATE button.MADI (option)MADI is a very popular audio interface offering 64 channels ata maximum cable length of 2 kilometers!Furthermore, when using more than one A16 AE, it is alsopossible to daisy chain the MADI cable. In this case the4Digital Interfaces device's output will be connected to the next device's input. Hence you can connect, for example, four A16 AE in a row in order to use the maximum number of 64 MADI channels.For more information concerning the MADI upgrade please visit our website: www.ferrofish.de/upgrade WORDCLOCKWhen using many devices which should run with the same sample rate, it is a good idea to use the Wordclock (BNC) connection of the A16 AE. It has both in and out connections to synchronize timings between multiple devices. The A16 AE can output a master wordclock, or accept (and then throughput) a signal from other devices.status screenThe status screen is a useful help when configuring theA16 AE, giving an overview of the digital inputs. To activate it, press MENU and then select status. The screen shows for every digital input, whether it receives a valid signal (signal) and whether this signal's sampling rate is correct (lock). Only if both conditions are met, the A16 AE will use the signal.5Analog InterfaceAnalog InterfaceAll analog in-/outputs are balanced and can be adjusted tolevels from -10dBu (“consumer”) to +4dBu (“professional”).If you adjust the output, for example to +4dBu, you should set the corresponding input to -4dBu in order to balance theamplification one by one.In doing so you can adjust the level of each channelindividually.The settings are chosen in a way that, in case of analog fullscale, a headroom of 6dB remains to avoid any digital clipping.Hence you can amplify the inputs by max. 6dBwithout the converters of the A16 AE distorting thesignal. Accordingly the output signal will be on fullscale if the digital signal is still below 6dB.The following table shows the common standard levels and the corresponding level adjustment of the A16 AE:6Analog InterfaceLevel and gain screenAll analog levels and gains can be adjusted independent ofeach other in steps of 0.5dB. Please press MENU and thenselect level or gain.Now you see a fader for each of the 16 channels (depending on the selection either the input channels or the output channels).In the first step you select those faders you want to move. You may select various groups of faders or individual faders.Next, press MENU in order to move the selected faders. In the top right corner of the window you can see the current level of each fader.Press and hold MENU to leave the settings menu.SoftwareThe remote control software for the A16 AE you find on our website. In addition you will find a program to upload yourown logo in the A16 AE.Please visit the download area of our website:www.ferrofish.de7CE / FCC ComplianceCE / FCC ComplianceThis device complies with the limits of the European Council Directive on the approximation of the laws of the member states relating to electromagnetic compatibility (RL89/336/EWG,RL73/23/EWG).This device complies with the limits for a Class B digital device, pursuant to Part 15 of the FCC rules.RohSThis device has been soldered lead free and fulfills the requirements of the RohS directive.Information about DisposalAccording to the Directive on Waste Electrical andElectronic Equipment – RL for electrical andelectronical devices ) RL2002/96/EG this device hasto be reused or recycled after its usage.8WarrantyWarrantyEach A16 AE is tested by us and all functions are checked extensively. Only high quality components are used, which enables us to give two years full warranty. As confirmation for the purchase date please keep the sales receipt.In case of a defect please consult your dealer. Defects, which are caused by improper installation or use are not subject to the warranty. In this case the repair is with costs.Compensation in any kind, i.e. of secondary damages is excluded. Any liability beyond the merchandise value of the A16 AE is excluded. General terms and conditions of Ferrofish GmbH apply.DisclaimerThis documentation describes the actual state of development. Ferrofish does not grant any warranty, neither explicit nor implicit, for the correctness of this documentation. I.e. Ferrofish isn't be liable for loss of data in assiciation with this product or this documentation. In particular Ferrofish is not liable for consequential damage, which are result from using the product or documentation.This document may use trade names or product names of other companies, these are subject to legal regulations, and are owned by the property holders accordingly. This is also true, even if it's not stated in the text explicitely.This product and documentation are subject to the current terms and conditions of the Ferrofish GmbH.9Warranty *****************www.ferrofish.de 10advanced audio applications FERROFISH。

DA转换器概述范文DA（数字到模拟）转换器是一种电子设备，用于将数字信号转换成模拟信号。

它将数字信号的离散值转换为模拟信号的连续变化。

数模转换器将输入的数字信号按照一定的规则转换为模拟信号。

最简单的数模转换器是比较器，它将输入的数字信号与一个参考电压进行比较，并输出高电平或低电平的模拟信号。

然而，这种简单的数模转换器有限的精度和分辨率，不能满足高要求的应用。

因此，现代的数模转换器采用更复杂的算法和电路设计来提高性能。

模数转换器将输入的连续模拟信号转换成数字信号。

最简单的模数转换器是采样保持电路，它将输入信号进行采样并保持在一个瞬时的电荷上，然后将这个电荷转换为数字形式。

通过多次采样和保持，可以确保模数转换器输出足够精细的数字信号。

现代的DA转换器通常使用更复杂的数字信号处理技术来提高性能和精度。

一种常见的技术是增加采样率和分辨率。

通过增加采样率，可以提高模数转换器对输入信号的精细度，更准确地还原输入信号。

通过增加分辨率，可以提高数模转换器对数字信号的解析能力，减小输出误差。

另一种常见的技术是增加DAC芯片的位数，通常以比特为单位。

位数表示DAC芯片的输出电压或电流的精度。

更高的位数意味着更高的分辨率和更准确的输出。

此外，一些DA转换器还具有各种辅助功能，如数字滤波器、缓冲器、放大器等。

这些功能可以进一步改善DA转换器的性能和可靠性。

总之，DA转换器是一种将数字信号转换为模拟信号的电子设备。

它在各种电子设备中广泛应用，如音频设备、视频设备、通信设备、控制系统等。

现代的DA转换器采用复杂的数字信号处理技术和电路设计来提高性能和精度。

随着技术的不断进步，DA转换器的性能将会继续提高，以满足不断增长的应用需求。

ADC16V130功能特性以及应用的介绍NS 公司的ADC16V130是LVDS输出的16位130MSPS高性能ADC,双电源1.8V和3.0V工作,16位分辨率,取样速率130MSPS,满功率带宽1.4GHz,160-MHz的SNR 为76.7dB, SFDR为90.6dBFS,主要应用在高IF取样接收器,多载波基站接收器,测试测量设备,通信基础设备,数据采集和手提仪表等.本文介绍了ADC16V130主要特性,方框图,低频和高频变压器驱动电路以及SP16130CH4RB低IF接收器参考设计主要特性,详细电路图和材料清单(BOM).ADC16V130: 16-Bit, 130 MSPS A/D Converter with LVDS OutputsThe ADC16V130 is a monolithic high performance CMOS analog-to-digital converter capable of converTIng analog input signals into 16-bit digital words at rates up to 130 Mega Samples Per Second (MSPS). This converter uses a differenTIal, pipelined architecture with digital error correcTIon and an onchip sample-and-hold circuit to minimize power consumpTIon and external component count while providing excellent dynamic performance. Automatic power-up calibration enables excellent dynamic performance and reduces part-to-part variation, and the ADC16V130 could be re-calibrated at any time by asserting and then de-asserting power-down. An integrated low noise and stable voltage reference and differential reference buffer amplifier easies board level design. On-chip duty cycle stabilizer with low additive jitter allows wide duty cycle range of input clock without compromising its dynamic performance. A unique sample-and-hold stage yields a fullpower bandwidth of 1.4 GHz. The digital data is provided via full data rate LVDS outputs making possible the 64-pin, 9mm x 9mm LLP package. The ADC16V130 operates on dual power supplies +1.8V and +3.0V with a power-down feature to reduce the power consumption to very low levels while allowing fast recovery to full operation.ADC16V130主要特性:■Dual Supplies: 1.8V and 3.0V operation■On chip automatic calibration during power-up■Low power consumption■Multi-level multi-function pins for CLK/DF and PD■Power-down and sleep modes■On chip precision reference and sample-and-hold circuit■On chip low jitter duty-cycle stabilizer■Full data rate LVDS output port■64-pin LLP package (9x9x0.8, 0.5mm pin-pitch)ADC16V130主要指标:■Resolution 16 Bits■Conversion Rate 130 MSPS■SNR(fIN = 10MHz)(fIN = 70MHz)(fIN = 160MHz)78.5 dBFS (typ)77.8 dBFS (typ)76.7 dBFS (typ)■SFDR(fIN = 10MHz)(fIN = 70MHz)(fIN = 160MHz)95.5 dBFS (typ)92.0 dBFS (typ)90.6 dBFS (typ)■Full Power Bandwidth 1.4 GHz (typ)■Power ConsumptionCoreLVDS DriverTotal650 mW (typ)105 mW (typ)755 mW (typ)■Operating Temperature Range -40C ~ 85CADC16V130应用:■High IF Sampling Receivers■Multi-carrier Base Station Receivers GSM/EDGE, CDMA2000, UMTS, LTE and WiMax■Test and Measurement Equipment■Communications Instrumentation■Data Acquisition■Portable Instrumentation。

PCI总线100Ksps/16位32通道AD/2通道DA板AD7206(AD7201H)使用说明书北京瑞博华控制技术有限公司二00二年一月100Ksps/16位32通道AD/2通道DA板AD7201H使用说明书一、性能特点：本板采样PCI总线接口。

本板通过采用高速高精度AD芯片、高精度的仪器放大器、高密度FPGA逻辑芯片、精细地布线以及优良的制版工艺，实现了高速、高精度实时数据采集，具有以下性能特点：1、 AD高精度：误差小于＋/-3LSB 。

2、 DA通道数:2通道独立锁存,精度16位,3、 AD高速度：单通道采集速度达到100Ksps（Sample Per Second），多通道方式也能够达到80Ksps以上，特别适合于工业控制中的数据采集。

4、 程控放大器功能，可以设置放大倍数为1、2、4、8或1、10、100、1000。

5、 AD硬件定时：板上提供硬件定时器,可以根据需要发出定时中断,采集软件在定时中断程序中采集,从而保证准确地时间基准，适于大部分的工业实时控制和高速数据采集的应用，特别是在WINDOWS95/98/2000的环境下，由于PC系统很难提供高精度的定时，采用本板的定时器，能够提供高精度的定时，同时能够实现高精度的数据采集，因此，在WINDOWS环境下采用本板具有特别的优点。

6、 高抗干扰性：本板通过光电隔离技术,保证了系统的精度，在各种工业环境中都能够实现高精度的数据采集。

7、 电流监测功能：本板只需焊接上检测电阻，就能够实现电流检测。

用户可以按要求自己焊接，也可由本公司帮助焊接。

二、功能与指标AD的性能指标：AD采样精度：16位AD通道数：单端方式32通道，双端方式16通道AD系统数据采集实际贯通率：80K/SAD芯片转换速度：100K/SAD采样幅值综合误差：＋/- 3LSBAD输入电压范围：-5V到+5V或0－10VAD输入阻抗：10兆欧中断源：定时器中断触发方式：PC机软件触发DA的性能指标：通道数：2路独立输出输出方式：电压输出，－5V－0V或0－10V精度：12位接口：总线方式：32位PCI总线接头方式：DB37（针式）工作温度：0－70℃三、AD 板工作原理简介AD7206板的硬件组成原理框图如图1所示 J2插座阻容元件多路开关仪器放大器程控放大器A/D 芯片PCI总线接口驱动及逻辑定时器DA芯片电压调整量程选择图1 原理框图信号从模拟量输入接头J2输入，然后经过阻容元件、多路开关进入仪器放大器，经过仪器放大器实现阻抗匹配和干扰抑制，再送到程控放大器，然后送到A/D 芯片。

32通道16位DA转换器MAX5631的原理及应用32通道16位D/A转换器MAX5631的原理及应用摘要：介绍了美国MAXIM公司的32通道16位D/A转换器MAX5631的基本功能，详细讨论了它的三种工作模式及工作时序，给出了MAX5631与AT89C51单片机的一种串行接口连接方法，同时给出了它们相应的软件程序。

关键词：MAX5631 D/A转换AT89C51 串行接口MAX5631是美国MAXIM公司生产的一种32通道高速度采样保持D/A转换器。

它内含一个16位DAC、一个带内部时钟的时序控制器、一个片内RAM以及32路采样保持放大器。

其中DAC电路由两部分组成。

在16位DAC中，高4位可通过15个同值电阻组成的权电阻网络来完成相应的转换，其余位的转换则由一个12位R-2R梯形网络来完成。

其32路带缓冲的采样保持电路通过内部保持电容来使输出压降维持在每秒1mV的范围内，且不需要配置外部增益和偏置电路。

MAX5631能提供最大200μV的分辨率和0.015%FSR的高精度转换，其输出电压范围为-4.5V~9.2V，并具有工作温度范围以及串行接口灵活等特点，适用地处理大量模拟数据输出的场合。

1 引脚说明图1所示是MAX5631的引脚列图。

该器件共有64个引脚，大致可分成以下几类：（1）电源类：其中第4脚为D/A数模转换器的+5V供电电源。

第9脚为+5V逻辑电源，第14脚为+5V采样保持电路。

16、32、46脚为负电源，17、39、48脚为正电源。

13脚为数字地，15、25、40、55、62脚为模拟地，63脚为电压参考输入。

（2）控制类：其中第5脚RST为复位输入，6脚CS为片选输入，10脚IMMED为立即更新模式，18、33、49脚（CL）为输出钳位电压低位。

31、47、64脚（CH）为输出钳位电压高位。

（3）时钟类：11脚ECLK为外部时序时钟输入，12脚CLKSEL 为时钟选择输入。

（4）串行接口类：7脚DIN为串行数据输入，8脚SCLK为串行时钟输入。

16通道DAS ，内置16位、双极性输入、双路同步采样ADC数据手册AD7616Rev. 0Document FeedbackInformation furnished by Analog Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. Specifications subject to change without notice. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks andregistered trademarks are the property of their respective owners.One Technology Way, P .O. Box 9106, Norwood, MA 02062-9106, U.S.A.Tel: 781.329.4700 ©2016 Analog Devices, Inc. All rights reserved. Technical Support /cnADI 中文版数据手册是英文版数据手册的译文，敬请谅解翻译中可能存在的语言组织或翻译错误，ADI 不对翻译中存在的差异或由此产生的错误负责。

如需确认任何词语的准确性，请参考ADI 提供的最产品特性16通道、双路、同步采样输入 可独立选择的通道输入范围真双极性：±10 V 、±5 V 、±2.5 V5 V 单模拟电源，V DRIVE 电源电压：2.3 V 至3.6 V 完全集成的数据采集解决方案 模拟输入箝位保护具有1 MΩ模拟输入阻抗的输入缓冲器 一阶抗混叠模拟滤波器片内精密基准电压及基准电压缓冲器双通道16位逐次逼近型寄存器 (SAR)ADC 吞吐速率：2×1 MSPS通过数字滤波器提供过采样功能 灵活的序列器，支持突发模式 灵活的并行/串行接口SPI/QSPI/MICROWIRE/DSP 兼容 可选循环冗余校验 (CRC) 错误检查 硬件/软件配置 性能信噪比 (SNR)：92 dB （500 kSPS 、2倍过采样） 信噪比 (SNR)：90.5 dB (1 MSPS) 总谐波失真 (THD)：−103 dB ±1 LSB INL （典型值），±0.99 LSB DNL （最大值） 模拟输入通道提供8 kV ESD 额定值 片内自检测功能 80引脚LQFP 封装应用电力线路监控 保护继电器 多相电机控制仪器仪表和控制系统 数据采集系统 (DAS)概述AD7616是一款16位DAS ，支持对16个通道进行双路同步采样。

1Specifications AnAlog Input Channels: 16-channel single-ended or 8-channel differential Input Ranges: +10V, +5V, +2.5V, +1.25V Resolution: 16-bits Conversion Rate: 100 KS/s Input Impedance: 10,000Ω//6pf overvoltage protection: +35V linearity: +1-bit Sample & Hold: on chip Zero Drift: 19 ppm/°C of full scale D/A outputS Channels: 2 independent type: 12-bit double buffers linearity: 0.006% FS output Driving: 5 mA output Range: 0 to 5V or 0 to 10V External Reference: Max +10V output Current: +5 mA DIgItAl I/o Inputs: 16 (LSTTL)Input low: VIL = 0.8V max IIL = -0.4 mA max Input High: VIH = 2.0V min IIH = 20 µA max outputs: 16 channel TTL levels outputs low: VOL = 0.5V max @ IOL = 8 mA max outputs High: VOH = 2.7V min IOH = -400 µA maxU 16-Bit A/D ConverterU 12-Bit D/A ConverterU 16 Single-Ended or 8 Differential InputsU 100 KS/s Sampling RateU two 12-Bit Analog output ChannelsU A/D Data transfer Modes: polling, Interrupt, DMAU 16 Digital Input & 16 Digital outputs oME-A-826pg shown smaller than actual size100K S/s 16-Channel 16-BitAnalog Input Board for the ISA BusThe OME-A-826PG is a 16-bit multifunction analog and digital I/O board for PC/AT compatible computers. The OME-A-826PG offers 16 single-ended or 8 differential analog inputs, plus two channels of analog output with 12-bits resolution. In addition, the OME-A-826PG has 16 digital inputs, 16 digital outputs and one counter/ timer channel. The OME-A-826PG provides gains of 1, 2, 4 and 8. It has a maximum sampling rate of 100 KS/s. DMA operation is jumper selectable for levels 1 or 3. Interrupts are jumper selectable between 3 and 15.Software Development Kit All data acquisition boards are supplied with a standard software development kit for Windows 98/NT/2000/XP. The software development kit includes DLL files for programming in C, C++ or other high level languages and OCX files for Visual Basic or Active X programming. LabView drivers are also included.2oME-Dn-37 shown smaller than actual size (shown with DIn-Rail Mounting Kit).Ordering Example: OME-A-826PG 16-bit multi-function board, and OCW-1, OMEGACARE SM extends standard 1-year warranty to a total of 2 years.oME-DB-8225 shownsmaller than actual size (shown with DIn-Rail Mounting Kit).oME-DB-16p shown smaller than actual size.CountER/tIMER programmable Internal timer: (0.0045 Hz 0.5 MHz)type: 82C54A/D pacer: 16-bit counter Interrupt Channel: 3-15 jumper selectablegeneral Environmental power Requirements : +5V @ 650 mA (max) operating temperature: 0 to 50°C (32 to 172°F)Storage temperature: -20 to 70°C (-4 to158°F)Humidity: 0 to 90% RH non-condensing Dimensions: 122 H x 170 mm W (4.8 x 6.7")Connector: analog I/O, 37-pin D-Sub; digital I/O, two 20-pin headers OMEGACARE SM extended warranty program is available for models shown on this page. Ask your sales representative for full details when placing an order. OMEGACARE SM covers parts, labor and equivalent loaners.。

ߜ16-Bit Resolution for Analog InputߜTwo 12-Bit Analog Output Channels ߜ8 Single Ended or 4 Differential A/DChannels, Expandable to 128 ChannelsߜFour Digital I/O Channels ߜ16-Bit Timer/Counter with Auto-Reload and Readout Latchߜ0.006 Hz to 100 kHz Sampling RateߜBipolar Input Range of Ϯ10 Volts, withProgrammable Gain of 1,2, 4 and 8ߜ2 K Data FIFOߜProgrammable Scan FIFO with 2048 Entries ߜCompatible withSignalPro Series Signal Conditioning Modules ߜDrivers Supplied for Dasylab and LabVIEW ߜDAQDRIVE and DaqEZ Software IncludedThe DAQP-308 is a Type IIPCMCIA data acquisition adaptor with 4 differential or 8 single-ended 16- bit A/D input channels (expandable to 128), with amaximum sampling rate of 100 kHz,and programmable gains of 1, 2, 4,or 8. Its bipolar analog input range extends from ±1.25 V, ±2.5 V, ±5 V,to ±10 V. The DAQP-308 is also equipped with two 12-bit D/A output channels. The outputs can beupdated individually when writing to the corresponding D/A port, or simultaneously when asynchronization signal comes.The DAQP-308 has a 2 K data FIFO which will significantly reduce CPU overhead and a scan FIFO of 2048entries, each of which can be specified for an input channel and its associated gain. It has aselectable scan speed of 10 µs to 40 µs per channel. Data acquisition may be initiated by a trigger signal or by using the DAQP-308’s pre-trigger capability. The DAQP-308has a 24-bit auto-reload pacer clock which generates accurate sampling rates from 0.006 Hz to 100 kHz using an internal or external clock source. The pacer clock is actually a 24-bit auto-reload frequency divider.It contains a 24-bit divisor register, a 24-bit counter, and internal clock pre-scaler and a clock source multiplexer. The DAPQ-308 also has a 16-bit counter/timer with an auto-reload and readout latch which provides independent timing for the D/A channels, and operates with internal or external clock source and gate controls.The DAQP-308 includes OMEGA’s DAQDRIVE software driver andDaqEZ user friendly data acquisitionapplication software package. All necessary software is included to install and configure the DAQP-308for use with Windows 95/98/NT/2000.SignalConditioning/ExpansionThe DAQP-208 is compatible with the SignalPro line of signal conditioners. These signalconditioners allow the DAQP-308 to read most process sensors and provides channel expansion up to 256 inputs. See the H section of the handbook for detailed information on the SignalPro line.SoftwareOS Support:Windows 95/98/NT/2000. DAQDRIVEsoftware drivers support numerous Windows programming languages,including Microsoft C/C++, Visual Basic 5.0, Borland C/C++. As part of the DAQDRIVE package, drivers are also included for third-party software packages including Dasylab and LabVIEW. Forimplementing a fully integrated data acquisition system, OMEGA’s DaqEZ user friendly applicationsoftware package is included FREE,and will in many cases be all that is needed.D1-33$795Basic SystemDAQP-308 16 Bit A/D and 12 Bit D/APCMCIA Data Acquisition AdaptorUSAD1ANALOG INPUT AND MULTI-FUNCTION CARDSon CD ROM.O rdering Example:DAQP-308 and UIO-37terminal strip and OMEGACARE SM 1-yearextended warranty for DAQP-308, (adds 1 year to standard 1-year warranty),$795 + 110 + 86 = $991D1-34SpecificationsANALOG INPUTResolution:16-BitNumber of Channels:4 differential/ 8 single-ended, expandable to128 with SignalPro SeriesInput Range:±10, ±5, ±2.5,±1.25 voltsMax Overvoltage:±30 voltsInput Impedance: 100MΩProgrammable Gains: 1,2,4,8Data FIFO:2KScan FIFO:2048 entriesSampling Rate:0.006Hz-100kHz(with internal clock)Trigger Source:internal (software)or external (TTL, analog)Trigger Mode:continuous/ one-shotPre-trigger Capacity: programmable,up to the data FIFO depthTTL Trigger:0.8V(low)/2.2V(high),rising/falling edgesAnalog Trigger:threshold set in fullA/D input range (+10V) rising/fallingdirections, 10 mV hysteresisExternal Clock Rate:DC-5MHzIntegral Linearity Error: +3 LSBDifferential Linearity Error:+3/-2 LSBFull Scale Error:+0.5%Aperture Delay:40 nsANALOG OUTPUTResolution:12 bitNumber of Channels: 2 single endedOutput Range:±5 volts (bipolar)Maximum Update Rate:100kHz(10ms)DC Output Impedance:0.5Ω(typical)Output Current:±2 mARelative Accuracy:+1 LSB maxBipolar Zero Error:+7 LSB maxDifferential Nonlinearity:+1 LSBmaxFull Scale Error:+7 LSB maxCOUNTER/TIMERWord Length:16-Bit, auto-reloadand read latchClock Source:internal (1 MHz)/external (DC-5 MHz)External Clock Input:TTL, pulsewidth > 100 ns, frequency < 5 MHzDIGITAL I/ODigital Input Channels:4 unlatchedDigital Output Channels:4 latchedMaximum Source Current:0.5 mAMaximum Sinking Current:2.5 mAminimum logic ‘1’ level: 2.4 Vmaximum logic ‘0’ level: 0.8 VPower Consumption:210 mA@5 V (full powered mode)70 mA @ 5V (powered down mode)DaqEZ SoftwareCANADA www.omega.ca Laval(Quebec) 1-800-TC-OMEGA UNITED KINGDOM www. Manchester, England0800-488-488GERMANY www.omega.deDeckenpfronn, Germany************FRANCE www.omega.frGuyancourt, France088-466-342BENELUX www.omega.nl Amstelveen, NL 0800-099-33-44UNITED STATES 1-800-TC-OMEGA Stamford, CT.CZECH REPUBLIC www.omegaeng.cz Karviná, Czech Republic596-311-899TemperatureCalibrators, Connectors, General Test and MeasurementInstruments, Glass Bulb Thermometers, Handheld Instruments for Temperature Measurement, Ice Point References,Indicating Labels, Crayons, Cements and Lacquers, Infrared Temperature Measurement Instruments, Recorders Relative Humidity Measurement Instruments, RTD Probes, Elements and Assemblies, Temperature & Process Meters, Timers and Counters, Temperature and Process Controllers and Power Switching Devices, Thermistor Elements, Probes andAssemblies,Thermocouples Thermowells and Head and Well Assemblies, Transmitters, WirePressure, Strain and ForceDisplacement Transducers, Dynamic Measurement Force Sensors, Instrumentation for Pressure and Strain Measurements, Load Cells, Pressure Gauges, PressureReference Section, Pressure Switches, Pressure Transducers, Proximity Transducers, Regulators,Strain Gages, Torque Transducers, ValvespH and ConductivityConductivity Instrumentation, Dissolved OxygenInstrumentation, Environmental Instrumentation, pH Electrodes and Instruments, Water and Soil Analysis InstrumentationHeatersBand Heaters, Cartridge Heaters, Circulation Heaters, Comfort Heaters, Controllers, Meters and SwitchingDevices, Flexible Heaters, General Test and Measurement Instruments, Heater Hook-up Wire, Heating Cable Systems, Immersion Heaters, Process Air and Duct, Heaters, Radiant Heaters, Strip Heaters, Tubular HeatersFlow and LevelAir Velocity Indicators, Doppler Flowmeters, LevelMeasurement, Magnetic Flowmeters, Mass Flowmeters,Pitot Tubes, Pumps, Rotameters, Turbine and Paddle Wheel Flowmeters, Ultrasonic Flowmeters, Valves, Variable Area Flowmeters, Vortex Shedding FlowmetersData AcquisitionAuto-Dialers and Alarm Monitoring Systems, Communication Products and Converters, Data Acquisition and Analysis Software, Data LoggersPlug-in Cards, Signal Conditioners, USB, RS232, RS485 and Parallel Port Data Acquisition Systems, Wireless Transmitters and Receivers。

第一章功能概述
一、产品应用
本款DA卡是基于PCI总线的以DSP为核心的高性能高速度模拟量输出卡，每卡可输出32路模拟量，转换精度为16位，并支持动态输出和静态输出。

PCI 总线是基于32位的PCI总线，支持PCI2.2协议，真正实现即插即用，接口芯片配置有缓存，方便与计算机通信。

二、性能指标
◆转换器类型：DAC8814 (16独立芯片)
◆通道数：32路同步输出
◆转换精度：16位
◆可同时与16个DA芯片进行通信，单次通信时间最快3.5us，32个通道需两
次即7us
◆32路同步输出最快可10us：服务器写数据及PCI传输时间3us，DSP与PCI
桥芯片通信2us，DSP与DA芯片通信4us
◆输出量程及零点可调，默认输出量程±10V
◆触发源：软件内触发、硬件数字外触发
◆支持动态输出和静态输出，可独立产生信号源
◆非线性误差：最大±1LSB
◆双缓冲高速串行数据输入总线
第二章信号输出连接器定义关于37芯插头的拐角定义如下：
AGND AO1 AO3 AO5 AO7 AO9 AO11 AO13 AO15 AO17 AO19 AO21 AO23 AO25 AO27 AO29 AO31 AGND AGND AGND AO2 AO4
AO18 AO8 AO6 AO14 AO12 AO10 AO16 AO20
AO22 AO24 AO26 AO28 AO30 AO32 AGND
第三章 换算关系
当量程为±10V 时，假定输出的电压为V olt(单位为mV)，写向DA 的原始码为DAData ，换算关系如下：
DAData=65535
20000
Volt
+32768。

作为PCM音频用的16位A／D转换器
刘宝华
【期刊名称】《广播与电视技术》
【年(卷),期】1990(000)004
【摘要】一、概述微型机用于数据采集、过程控制系统必然要解决模拟量的输入与输出,也就是要解决A/D、D/A的转换技术。

而各种现场、各个课题对A/D、D/A转换器的功能又有不同的要求。

因此A/D,D/A转换器是微型机与外界联系的一种主要手段:通过A/D可把一个连续变化的电量变换成一组相关的离散数组。

【总页数】5页(P34-38)
【作者】刘宝华
【作者单位】无
【正文语种】中文
【中图分类】TP335.1
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因版权原因，仅展示原文概要，查看原文内容请购买。

16位双通道nanoDAC＋
佚名
【期刊名称】《《今日电子》》
【年(卷),期】2013(000)003
【摘要】AD5689R的相对精度为±2LSBINL、基准电压源为2ppm／℃2．5V，采用节省空间的封装方式，让模拟系统设计师们在更多应用设计中无须以牺牲性能的代价来换取尺寸。

该系列提供简单的引脚排列，
【总页数】1页(P55-55)
【正文语种】中文
【中图分类】TN86
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