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  • MAX538BEPA图
  • 深圳市恒益昌科技有限公司

     该会员已使用本站6年以上
  • MAX538BEPA
  • 数量4500 
  • 厂家MAXIM 
  • 封装DIP8 
  • 批号23+ 
  • 全新原装正品现货
  • QQ:3336148967QQ:3336148967 复制
    QQ:974337758QQ:974337758 复制
  • 0755-82723761 QQ:3336148967QQ:974337758
  • MAX538BEPA图
  • 深圳市恒达亿科技有限公司

     该会员已使用本站16年以上
  • MAX538BEPA
  • 数量3500 
  • 厂家MAXIM 
  • 封装DIP 
  • 批号23+ 
  • 全新原装现货特价销售!
  • QQ:867789136QQ:867789136 复制
    QQ:1245773710QQ:1245773710 复制
  • 0755-82723761 QQ:867789136QQ:1245773710
  • MAX538BEPA图
  • 深圳市恒达亿科技有限公司

     该会员已使用本站12年以上
  • MAX538BEPA
  • 数量3000 
  • 厂家MAXIM 
  • 封装DIP8 
  • 批号23+ 
  • 全新原装公司现货库存!
  • QQ:867789136QQ:867789136 复制
    QQ:1245773710QQ:1245773710 复制
  • 0755-82772189 QQ:867789136QQ:1245773710
  • MAX538BEPA图
  • 深圳市欧立现代科技有限公司

     该会员已使用本站12年以上
  • MAX538BEPA
  • 数量8454 
  • 厂家MAXIM 
  • 封装DIP8 
  • 批号24+ 
  • 全新原装现货,欢迎询购!
  • QQ:1950791264QQ:1950791264 复制
    QQ:221698708QQ:221698708 复制
  • 0755-83222787 QQ:1950791264QQ:221698708
  • MAX538BEPA图
  • 北京耐芯威科技有限公司

     该会员已使用本站12年以上
  • MAX538BEPA
  • 数量3500 
  • 厂家MAXIM 
  • 封装DIP8 
  • 批号21+ 
  • 原装正品,公司现货
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    QQ:1344056792QQ:1344056792 复制
  • 010-62104931 QQ:2880824479QQ:1344056792
  • MAX538BEPA+图
  • 深圳市得捷芯城科技有限公司

     该会员已使用本站11年以上
  • MAX538BEPA+
  • 数量9125 
  • 厂家ADI(亚德诺)/MAXIM(美信) 
  • 封装PDIP-8 
  • 批号23+ 
  • 原厂直销,现货供应,账期支持!
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  • 0755-82546830 QQ:3007977934QQ:3007947087
  • MAX538BEPA图
  • 集好芯城

     该会员已使用本站13年以上
  • MAX538BEPA
  • 数量7660 
  • 厂家MAXIM/美信 
  • 封装DIP8 
  • 批号最新批次 
  • 原厂原装公司现货
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    QQ:3008092965QQ:3008092965 复制
  • 0755-83239307 QQ:3008092965QQ:3008092965
  • MAX538BEPA图
  • 深圳市晶美隆科技有限公司

     该会员已使用本站14年以上
  • MAX538BEPA
  • 数量19759 
  • 厂家MAXIM 
  • 封装SMD 
  • 批号23+ 
  • 全新原装正品现货热卖
  • QQ:2885348339QQ:2885348339 复制
    QQ:2885348317QQ:2885348317 复制
  • 0755-82519391 QQ:2885348339QQ:2885348317
  • MAX538BEPA图
  • 绿盛电子(香港)有限公司

     该会员已使用本站12年以上
  • MAX538BEPA
  • 数量2015 
  • 厂家MAXIM 
  • 封装DIP8 
  • 批号19889 
  • ★一级代理原装现货,特价热卖!
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  • 0755-25165869 QQ:2752732883QQ:240616963
  • MAX538BEPA图
  • 深圳市宏捷佳电子科技有限公司

     该会员已使用本站12年以上
  • MAX538BEPA
  • 数量12300 
  • 厂家MAXIM/美信 
  • 封装DIP8 
  • 批号24+ 
  • ★原装真实库存★13点税!
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    QQ:2885134615QQ:2885134615 复制
  • 0755-83201583 QQ:2353549508QQ:2885134615
  • MAX538BEPA?图
  • 深圳市晶美隆科技有限公司

     该会员已使用本站14年以上
  • MAX538BEPA?
  • 数量16380 
  • 厂家MAXIM 
  • 封装DIP-8 
  • 批号23+ 
  • 全新原装正品现货
  • QQ:2885348317QQ:2885348317 复制
    QQ:2885348339QQ:2885348339 复制
  • 0755-83209630 QQ:2885348317QQ:2885348339
  • MAX538BEPA图
  • 深圳市华斯顿电子科技有限公司

     该会员已使用本站16年以上
  • MAX538BEPA
  • 数量45620 
  • 厂家MAXIM 
  • 封装DIP8 
  • 批号2023+ 
  • 绝对原装全新正品现货/优势渠道商、原盘原包原盒
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  • 0755-83777708“进口原装正品专供” QQ:364510898QQ:515102657
  • MAX538BEPA图
  • 北京齐天芯科技有限公司

     该会员已使用本站15年以上
  • MAX538BEPA
  • 数量10000 
  • 厂家 
  • 封装 
  • 批号2024+ 
  • 原装正品,假一罚十
  • QQ:2880824479QQ:2880824479 复制
    QQ:1344056792QQ:1344056792 复制
  • 010-62104931 QQ:2880824479QQ:1344056792
  • MAX538BEPA图
  • 北京元坤伟业科技有限公司

     该会员已使用本站17年以上
  • MAX538BEPA
  • 数量5000 
  • 厂家MAXIM 
  • 封装DIP8 
  • 批号2024+ 
  • 百分百原装正品,现货库存
  • QQ:857273081QQ:857273081 复制
    QQ:1594462451QQ:1594462451 复制
  • 010-62104891 QQ:857273081QQ:1594462451
  • MAX538BEPA图
  • 深圳市恒意法科技有限公司

     该会员已使用本站17年以上
  • MAX538BEPA
  • 数量9000 
  • 厂家Analog Devices Inc./Maxim Integrated 
  • 封装8-PDIP 
  • 批号21+ 
  • 正规渠道/品质保证/原装正品现货
  • QQ:2881514372QQ:2881514372 复制
  • 0755-83247729 QQ:2881514372
  • MAX538BEPA+图
  • 深圳市惊羽科技有限公司

     该会员已使用本站11年以上
  • MAX538BEPA+
  • 数量2368 
  • 厂家MAXIM-美信 
  • 封装DIP-8.直插 
  • 批号▉▉:2年内 
  • ▉▉¥90.2元一有问必回一有长期订货一备货HK仓库
  • QQ:43871025QQ:43871025 复制
  • 131-4700-5145---Q-微-恭-候---有-问-秒-回 QQ:43871025
  • MAX538BEPA图
  • 深圳市毅创腾电子科技有限公司

     该会员已使用本站16年以上
  • MAX538BEPA
  • 数量3000 
  • 厂家MAXI 
  • 封装DIP-8 
  • 批号22+ 
  • ★只做原装★正品现货★原盒原标★
  • QQ:2355507162QQ:2355507162 复制
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  • 86-755-83616256 QQ:2355507162QQ:2355507165
  • MAX538BEPA图
  • 深圳市恒达亿科技有限公司

     该会员已使用本站12年以上
  • MAX538BEPA
  • 数量3000 
  • 厂家MAXIM 
  • 封装DIP8 
  • 批号23+ 
  • 全新原装公司现货销售
  • QQ:1245773710QQ:1245773710 复制
    QQ:867789136QQ:867789136 复制
  • 0755-82772189 QQ:1245773710QQ:867789136
  • MAX538BEPA图
  • 深圳市富科达科技有限公司

     该会员已使用本站13年以上
  • MAX538BEPA
  • 数量24652 
  • 厂家MAXIM 
  • 封装原厂特价 
  • 批号2020+ 
  • 全新原装现货库存特价热卖
  • QQ:1220223788QQ:1220223788 复制
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  • 86-0755-28767101 QQ:1220223788QQ:1327510916
  • MAX538BEPA图
  • 深圳市富科达科技有限公司

     该会员已使用本站13年以上
  • MAX538BEPA
  • 数量27779 
  • 厂家MAXIM 
  • 封装 
  • 批号2020+ 
  • 全新原装进口现货特价热卖,长期供货
  • QQ:1327510916QQ:1327510916 复制
    QQ:1220223788QQ:1220223788 复制
  • 0755-28767101 QQ:1327510916QQ:1220223788
  • MAX538BEPA+图
  • 深圳市科美奇科技有限公司

     该会员已使用本站15年以上
  • MAX538BEPA+
  • 数量
  • 厂家22+ 
  • 封装6-TMLF?(1.6x1.6) 
  • 批号12560 
  • 十年资质★★稳定供货
  • QQ:578672175QQ:578672175 复制
  • 0755-83218135 QQ:578672175
  • MAX538BEPA图
  • 深圳市宏世佳电子科技有限公司

     该会员已使用本站13年以上
  • MAX538BEPA
  • 数量3695 
  • 厂家ADI/MAXIM 
  • 封装8-PDIP 
  • 批号2023+ 
  • 全新原厂原装产品、公司现货销售
  • QQ:2881894392QQ:2881894392 复制
    QQ:2881894393QQ:2881894393 复制
  • 0755-82556029 QQ:2881894392QQ:2881894393
  • MAX538BEPA图
  • 深圳市宏世佳电子科技有限公司

     该会员已使用本站13年以上
  • MAX538BEPA
  • 数量3695 
  • 厂家ADI/MAXIM 
  • 封装8-PDIP 
  • 批号2023+ 
  • 全新原厂原装产品、公司现货销售
  • QQ:2881894392QQ:2881894392 复制
    QQ:2881894393QQ:2881894393 复制
  • 0755-82556029 QQ:2881894392QQ:2881894393
  • MAX538BEPA图
  • 万三科技(深圳)有限公司

     该会员已使用本站2年以上
  • MAX538BEPA
  • 数量660000 
  • 厂家Maxim Integrated 
  • 封装
  • 批号23+ 
  • 支持实单/只做原装
  • QQ:3008961398QQ:3008961398 复制
  • 0755-21006672 QQ:3008961398
  • MAX538BEPA图
  • 深圳市富莱微科技有限公司

     该会员已使用本站6年以上
  • MAX538BEPA
  • 数量6995 
  • 厂家Maxim Integrated 
  • 封装8-DIP 
  • 批号20+ 
  • 进口原装,公司现货
  • QQ:1968343307QQ:1968343307 复制
    QQ:2885835292QQ:2885835292 复制
  • 0755-83210149 QQ:1968343307QQ:2885835292
  • MAX538BEPA图
  • 深圳市双微电子科技有限公司

     该会员已使用本站10年以上
  • MAX538BEPA
  • 数量795 
  • 厂家MAXIM 
  • 封装DIP8 
  • 批号20+ 
  • 询货请加QQ 全新原装 现货库存
  • QQ:1965209269QQ:1965209269 复制
    QQ:1079402399QQ:1079402399 复制
  • 15889219681 QQ:1965209269QQ:1079402399
  • MAX538BEPA图
  • 北京力通科信电子有限公司

     该会员已使用本站10年以上
  • MAX538BEPA
  • 数量585 
  • 厂家MAXIM 
  • 封装 
  • 批号04+ 
  • 北京深圳原装现货热卖特价
  • QQ:2355365902QQ:2355365902 复制
    QQ:2355365899QQ:2355365899 复制
  • 010-82625766 QQ:2355365902QQ:2355365899
  • MAX538BEPA图
  • 深圳德田科技有限公司

     该会员已使用本站7年以上
  • MAX538BEPA
  • 数量
  • 厂家新年份 
  • 封装9600 
  • 批号 
  • 原装正品现货,可出样品!!!
  • QQ:229754250QQ:229754250 复制
  • 0755-83254070 QQ:229754250
  • MAX538BEPA图
  • 上海磐岳电子有限公司

     该会员已使用本站11年以上
  • MAX538BEPA
  • 数量5800 
  • 厂家MAX 
  • 封装DIP-8 
  • 批号2024+ 
  • 全新原装现货,杜绝假货。
  • QQ:3003653665QQ:3003653665 复制
    QQ:1325513291QQ:1325513291 复制
  • 021-60341766 QQ:3003653665QQ:1325513291
  • MAX538BEPA图
  • 深圳市科雨电子有限公司

     该会员已使用本站9年以上
  • MAX538BEPA
  • 数量1001 
  • 厂家MAXIM 
  • 封装DIP-8 
  • 批号24+ 
  • ★体验愉快问购元件!!就找我吧!《停产物料》
  • QQ:1415691092QQ:1415691092 复制
  • 133-5299-5145(微信同号) QQ:1415691092
  • MAX538BEPA图
  • 深圳市中杰盛科技有限公司

     该会员已使用本站14年以上
  • MAX538BEPA
  • 数量12000 
  • 厂家Maxim 
  • 封装PDIP N 
  • 批号24+ 
  • 【原装优势★★★绝对有货】
  • QQ:409801605QQ:409801605 复制
  • 0755-22968359 QQ:409801605
  • MAX538BEPA+图
  • 深圳市金嘉锐电子有限公司

     该会员已使用本站14年以上
  • MAX538BEPA+
  • 数量28620 
  • 厂家Maxim 
  • 封装8-PDIP 
  • 批号24+ 
  • 【原装优势★★★绝对有货】
  • QQ:2643490444QQ:2643490444 复制
  • 0755-22929859 QQ:2643490444
  • MAX538BEPA图
  • 深圳市欧瑞芯科技有限公司

     该会员已使用本站11年以上
  • MAX538BEPA
  • 数量9500 
  • 厂家Maxim(美信) 
  • 封装8-DIP(0.300,7.62mm) 
  • 批号24+ 
  • 绝对原装正品,可开专票,欢迎采购!!!
  • QQ:3354557638QQ:3354557638 复制
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  • 18565729389 QQ:3354557638QQ:3354557638
  • MAX538BEPA图
  • 深圳市科雨电子有限公司

     该会员已使用本站9年以上
  • MAX538BEPA
  • 数量9800 
  • 厂家MAX 
  • 封装原厂原封装 
  • 批号24+ 
  • 原厂渠道,全新原装现货,欢迎查询!
  • QQ:97877807QQ:97877807 复制
  • 171-4755-1968(微信同号) QQ:97877807
  • MAX538BEPA图
  • 深圳市创思克科技有限公司

     该会员已使用本站2年以上
  • MAX538BEPA
  • 数量12000 
  • 厂家MAXIM/美信 
  • 封装DIP8 
  • 批号19+ 
  • 全新原装挺实单欢迎来撩/可开票
  • QQ:1092793871QQ:1092793871 复制
  • -0755-88910020 QQ:1092793871

产品型号MAX538BEPA的概述

MAX538BEPA芯片概述 MAX538BEPA是一款高精度的数模转换器(DAC),由美国Maxim Integrated公司开发。该芯片以其出色的性能和灵活的应用范围而受到广泛欢迎。MAX538BEPA采用了电流输出方案,提供了8位的分辨率,能够有效地满足各类电子设备对于信号转换的需求。由于其高稳定性和可靠性,MAX538BEPA在音频设备、工业控制、传感器信号处理以及消费电子等领域有着重要的应用。 MAX538BEPA的详细参数 芯片的主要特性如下: 1. 分辨率:8位 2. 电源电压:+2.7V至+5.5V 3. 电流输出范围:0至20mA 4. 引脚配置:16引脚封装 5. 典型误差:±1LSB(最大) 此外,MAX538BEPA还支持多种接口标准,如SPI和I²C,使得其与其他设备的协同工作非常方便。在温度范围方面,该芯片保证在-40℃至+85℃的条件下能稳定运行。 厂家...

产品型号MAX538BEPA的Datasheet PDF文件预览

19-0172; Rev 6; 2/97  
+5 V, Lo w -P o w e r, Vo lt a g e -Ou t p u t ,  
S e ria l 1 2 -Bit DACs  
18/MAX539  
_______________Ge n e ra l De s c rip t io n  
___________________________Fe a t u re s  
Operate from Single +5V Supply  
Buffered Voltage Output  
The MAX531/MAX538/MAX539 are low-power, voltage-  
output, 12-bit digital-to-analog converters (DACs) speci-  
fied for single +5V power-supply operation. The MAX531  
c a n a ls o b e op e ra te d with ± 5V s up p lie s . The  
MAX538/MAX539 draw only 140µA, and the MAX531  
(with inte rna l re fe re nc e ) d ra ws only 260µA. The  
MAX538/MAX539 come in 8-pin DIP and SO packages,  
while the MAX531 comes in 14-pin DIP and SO pack-  
ages. All parts have been trimmed for offset voltage,  
gain, and linearity, so no further adjustment is necessary.  
Internal 2.048V Reference (MAX531)  
140µA Supply Current (MAX538/MAX539)  
INL = ±1/2LSB (max)  
Guaranteed Monotonic over Temperature  
Flexible Output Ranges:  
The MAX538s buffer is fixed at a gain of +1 and the  
MAX539s buffer at a gain of +2. The MAX531s internal  
op amp may be configured for a gain of +1 or +2, as  
well as for unipolar or bipolar output voltages. The  
MAX531 can also be used as a four-quadrant multiplier  
without external resistors or op amps.  
0V to V  
(MAX531/MAX539)  
DD  
V
to V  
(MAX531)  
SS  
DD  
0V to 2.6V (MAX531/MAX538)  
8-Pin SO/DIP (MAX538/MAX539)  
Power-On Reset  
For parallel data inputs, see the MAX530 data sheet.  
Serial Data Output for Daisy-Chaining  
_______________________Ap p lic a t io n s  
Battery-Powered Test Instruments  
______________Ord e rin g In fo rm a t io n  
ERROR  
PART  
TEMP. RANGE PIN-PACKAGE  
Digital Offset and Gain Adjustment  
Battery-Operated/Remote Industrial Controls  
Machine and Motion Control Devices  
Cellular Telephones  
(LSB)  
±1/2  
±1  
MAX531ACPD 0°C to +70°C  
14 Plastic DIP  
14 Plastic DIP  
14 SO  
MAX531BCPD  
MAX531ACSD  
MAX531BCSD  
MAX531BC/D  
0°C to +70°C  
0°C to +70°C  
0°C to +70°C  
0°C to +70°C  
±1/2  
±1  
14 SO  
Dice*  
±1  
________________Fu n c t io n a l Dia g ra m  
Ordering Information continued at end of data sheet.  
*Dice are specified at T = +25°C only.  
A
(MAX531 ONLY)  
REFOUT  
(MAX531 ONLY)  
BIPOFF  
REFIN  
_________________P in Co n fig u ra t io n s  
MAX531  
RFB  
2.048V  
MAX538  
MAX539  
(MAX531  
ONLY)  
REFERENCE  
(MAX531 ONLY)  
TOP VIEW  
VOUT  
DAC  
AGND  
V
DD  
DIN  
SCLK  
CS  
V
1
2
3
4
8
7
6
5
DD  
POWER-UP  
RESET  
DGND  
(MAX531  
ONLY)  
VOUT  
REFIN  
AGND  
CLR  
(MAX531  
ONLY)  
DAC REGISTER  
(12 BITS)  
MAX538  
MAX539  
V
SS  
CONTROL  
LOGIC  
DOUT  
(MAX531  
ONLY)  
CS  
SHIFT REGISTER  
(12 BITS)  
SCLK  
DIN  
4
BITS  
DOUT  
DIP/SO  
(MSB)  
(LSB)  
Pin Configurations continued at end of data sheet.  
________________________________________________________________ Maxim Integrated Products  
1
For free samples & the latest literature: http://www.maxim-ic.com, or phone 1-800-998-8800  
+5 V, Lo w -P o w e r, Vo lt a g e -Ou t p u t  
S e ria l 1 2 -Bit DACs  
ABSOLUTE MAXIMUM RATINGS  
V
to DGND and V to AGND ................................-0.3V, +6V  
Continuous Power Dissipation (T = +70°C)  
A
DD  
DD  
V
to DGND and V to AGND .................................-6V, +0.3V  
8-Pin Plastic DIP (derate 9.09mW/°C above +70°C)....727mW  
8-Pin SO (derate 5.88mW/°C above +70°C) ................471mW  
14-Pin Plastic DIP (derate 10.00mW/°C above +70°C)...800mW  
14-Pin SO (derate 8.33mW/°C above +70°C) ..............667mW  
Operating Temperature Ranges  
SS  
SS  
V
to V .................................................................-0.3V, +12V  
DD  
SS  
AGND to DGND........................................................-0.3V, +0.3V  
Digital Input Voltage to DGND ......................-0.3V, (V + 0.3V)  
REFIN ..................................................(V - 0.3V), (V + 0.3V)  
DD  
SS  
DD  
REFOUT to AGND .........................................-0.3V, (V + 0.3V)  
MAX53_ _C_ _ .....................................................0°C to +70°C  
MAX53_ _E_ _ ..................................................-40°C to +85°C  
Storage Temperature Range .............................-65°C to +165°C  
Lead Temperature (soldering, 10sec) .............................+300°C  
DD  
RFB .....................................................(V - 0.3V), (V + 0.3V)  
SS  
DD  
BIPOFF................................................(V - 0.3V), (V + 0.3V)  
SS  
DD  
V
OUT  
(Note 1) ................................................................V , V  
SS DD  
Continuous Current, Any Pin................................-20mA, +20mA  
Note 1: The output may be shorted to V , V , or AGND if the package power dissipation limit is not exceeded.  
DD SS  
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 in the operational sections of the specifications is not implied. Exposure to  
absolute maximum rating conditions for extended periods may affect device reliability.  
ELECTRICAL CHARACTERISTICS—Single +5V Supply  
(V = +5V ±10%, V = 0V, AGND = DGND = 0V, REFIN = 2.048V (external), RFB = BIPOFF = VOUT (MAX531), C  
= 33µF  
DD  
SS  
REFOUT  
(MAX531), R = 10k, C = 100pF, T = T  
to T , unless otherwise noted.)  
L
L
A
MIN  
MAX  
PARAMETER  
SYMBOL  
CONDITIONS  
MIN  
TYP  
MAX  
UNITS  
STATIC PERFORMANCE  
Resolution  
N
12  
Bits  
MAX53_AC/E  
±0.5  
18/MAX539  
Relative Accuracy (Note 2)  
INL  
DNL  
LSB  
MAX53_BC/E  
±1  
±1  
8
Differential Nonlinearity  
Unipolar Offset Error  
Unipolar Offset Tempco  
Gain Error (Note 2)  
Guaranteed monotonic  
MAX53_ _C/E  
LSB  
LSB  
V
OS  
0
TCV  
3
ppm/°C  
LSB  
OS  
GE  
MAX53_ _C/E  
±1  
1
Gain-Error Tempco  
1
ppm/°C  
Power-Supply Rejection Ratio  
(Note 3)  
PSRR  
4.5V V 5.5V  
0.4  
LSB/V  
DD  
VOLTAGE OUTPUT (VOUT)  
MAX531 (G = +1), MAX538  
MAX531 (G = +2), MAX539  
0
0
V
- 2  
DD  
Output Voltage Range  
V
V
- 0.4  
1
DD  
Output Load Regulation  
Short-Circuit Current  
REFERENCE INPUT (REFIN)  
Voltage Range  
VOUT = 2V, R = 2kΩ  
LSB  
mA  
L
I
SC  
12  
0
V
DD  
- 2  
V
Input Resistance  
Code dependent, minimum at code 555 hex  
Code dependent (Note 4)  
40  
10  
kΩ  
pF  
dB  
Input Capacitance  
50  
AC Feedthrough  
REFIN = 1kHz, 2Vp-p  
-80  
2
_______________________________________________________________________________________  
+5 V, Lo w -P o w e r, Vo lt a g e -Ou t p u t ,  
S e ria l 1 2 -Bit DACs  
18/MAX539  
ELECTRICAL CHARACTERISTICS—Single +5V Supply (continued)  
(V = +5V ±10%, V = 0V, AGND = DGND = 0V, REFIN = 2.048V (external), RFB = BIPOFF = VOUT (MAX531), C  
= 33µF  
DD  
SS  
REFOUT  
(MAX531), R = 10k, C = 100pF, T = T  
to T , unless otherwise noted.)  
L
L
A
MIN  
MAX  
PARAMETER  
SYMBOL  
CONDITIONS  
MIN  
TYP  
MAX  
UNITS  
REFERENCE OUTPUT (REFOUT—MAX531 only)  
T
= +25°C  
2.024  
2.017  
2.013  
2.048  
2.072  
2.079  
2.083  
50  
A
Reference Output Voltage  
Temperature Coefficient  
V
= 5.0V  
MAX531BC  
MAX531BE  
V
DD  
MAX531AC/AE/AM/BM  
MAX531BC/BE  
(Note 5)  
30  
30  
TC  
ppm/°C  
REFOUT  
Resistance  
R
0.5  
2
REFOUT  
Power-Supply Rejection Ratio  
Noise Voltage  
PSRR  
4.5V V 5.5V  
300  
µV/V  
µVp-p  
DD  
e
0.1Hz to 10kHz  
400  
n
Minimum Required External  
Capacitor  
C
3.3  
2.4  
µF  
MIN  
DIGITAL INPUTS (DIN, SCLK, CS, CLR)  
Input High  
V
V
V
IH  
Input Low  
V
0.8  
±1  
IL  
Input Current  
I
V
= 0V or V  
DD  
µA  
pF  
IN  
IN  
Input Capacitance  
DIGITAL OUTPUT (DOUT)  
Output High  
C
8
IN  
V
I
= 2mA  
V
- 1  
V
V
SOURCE  
DD  
OH  
Output Low  
V
I
= 2mA  
0.4  
OL  
SINK  
DYNAMIC PERFORMANCE  
Voltage-Output Slew Rate  
Voltage-Output Settling Time  
Digital Feedthrough  
SR  
T
= +25°C  
0.15  
0.25  
25  
5
V/µs  
µs  
A
To ±1/2LSB, VOUT = 2V  
nV-s  
CS = V , DIN = 100kHz  
DD  
REFIN = 1kHz, 2Vp-p (G = +1 or +2),  
code = FFF hex  
Signal-to-Noise plus Distortion  
SINAD  
68  
dB  
POWER SUPPLY  
Positive Supply Voltage  
V
4.5  
5.5  
400  
300  
V
DD  
MAX531  
,
260  
140  
All inputs = 0V or V  
output = no load  
DD  
Power-Supply Current  
I
DD  
µA  
MAX538, MAX539  
SWITCHING CHARACTERISTICS  
CS Setup Time  
t
20  
15  
0
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
CSS  
CSH0  
CSH1  
t
t
SCLK Fall to CS Fall Hold Time  
SCLK Fall to CS Rise Hold Time  
SCLK High Width  
t
35  
35  
45  
0
CH  
SCLK Low Width  
t
CL  
DS  
DH  
DO  
DIN Setup Time  
t
DIN Hold Time  
t
DOUT Valid Propagation Delay  
CS High Pulse Width  
t
C
= 50pF  
80  
L
t
20  
25  
50  
CSW  
t
CLR Pulse Width  
CLR  
t
CS Rise to SCLK Rise Setup Time  
CS1  
_______________________________________________________________________________________  
3
+5 V, Lo w -P o w e r, Vo lt a g e -Ou t p u t ,  
S e ria l 1 2 -Bit DACs  
ELECTRICAL CHARACTERISTICS—Dual Supplies (MAX531 Only)  
(V = +5V ±10%, V = -5V ±10%, AGND = DGND = 0V, REFIN = 2.048V (external), RFB = BIPOFF = VOUT, C = 33µF,  
DD  
SS  
REFOUT  
R = 10k, C = 100pF, T = T  
to T , unless otherwise noted.)  
MAX  
L
L
A
MIN  
PARAMETER  
SYMBOL  
CONDITIONS  
MIN  
TYP  
MAX  
UNITS  
Resolution  
N
12  
Bits  
MAX531AC/E  
MAX531BC/E  
±0.5  
±1  
Tested at V = 5V,  
DD  
Relative Accuracy  
INL  
LSB  
V
= -5V  
SS  
Differential Nonlinearity  
Bipolar Offset Error  
DNL  
Guaranteed monotonic  
±1  
LSB  
LSB  
V
OS  
BIPOFF = REFIN, MAX531_C/E  
BIPOFF = REFIN  
±8  
Bipolar Offset Tempco  
TCV  
3
ppm/°C  
LSB  
OS  
Gain Error (Unipolar or Bipolar)  
Gain-Error Tempco  
GEU  
MAX531_C/E  
±1  
1
1
ppm/°C  
Power-Supply Rejection Ratio  
(Note 3)  
PSRR  
4.5V V 5.5V, -5.5V V -4.5V  
0.4  
LSB/V  
DD  
SS  
REFERENCE INPUT (REFIN)  
Voltage Range  
V
SS  
+ 2  
V
DD  
- 2  
V
Input Resistance  
Code dependent, minimum at code 555 hex  
Code dependent (Note 4)  
40  
kΩ  
pF  
dB  
Input Capacitance  
AC Feedthrough  
10  
50  
REFIN = 1kHz, 2.0Vp-p  
-80  
REFERENCE OUTPUT (REFOUT—MAX531 only)  
18/MAX539  
T
= +25°C  
2.024  
2.017  
2.013  
2.048  
2.072  
2.079  
2.083  
50  
A
MAX531BC  
MAX531BE  
Reference Output Voltage  
Temperature Coefficient  
V
= 5.0V  
V
DD  
MAX531AC/AE/AM/BM  
MAX531BC/BE  
(Note 5)  
30  
30  
TC  
ppm/°C  
REFOUT  
Resistance  
R
0.5  
2
REFOUT  
PSRR  
Power-Supply Rejection Ratio  
Noise Voltage  
4.5V V 5.5V  
300  
µV/V  
µVp-p  
DD  
e
0.1Hz to 10kHz  
400  
n
Minimum Required External  
Capacitor  
C
3.3  
2.4  
µF  
MIN  
DIGITAL INPUTS (DIN, SCLK, CS)  
Input High  
V
V
V
IH  
Input Low  
V
0.8  
±1  
IL  
Input Current  
I
V
= 0V or V  
DD  
µA  
pF  
IN  
IN  
Input Capacitance  
DIGITAL OUTPUT (DOUT)  
Output High  
C
8
IN  
V
I
= 2mA  
V - 1  
DD  
V
V
OH  
SOURCE  
Output Low  
V
I
= 2mA  
0.4  
OL  
SINK  
4
_______________________________________________________________________________________  
+5 V, Lo w -P o w e r, Vo lt a g e -Ou t p u t ,  
S e ria l 1 2 -Bit DACs  
18/MAX539  
ELECTRICAL CHARACTERISTICS—Dual Supplies (MAX531 Only) (continued)  
(V = +5V ±10%, V = -5V ±10%, AGND = DGND = 0V, REFIN = 2.048V (external), RFB = BIPOFF = VOUT, C = 33µF,  
DD  
SS  
REFOUT  
R = 10k, C = 100pF, T = T  
to T , unless otherwise noted.)  
MAX  
L
L
A
MIN  
PARAMETER  
SYMBOL  
CONDITIONS  
MIN  
TYP  
MAX  
UNITS  
VOLTAGE OUTPUT (VOUT)  
MAX531 (G = +1)  
MAX531 (G = +2)  
V
+ 2  
V
- 2  
SS  
DD  
Output Voltage Range  
V
V
SS  
+ 0.4  
V
DD  
- 0.4  
1
Output Load Regulation  
Short-Circuit Current  
VOUT = 2V, R = 2kΩ  
LSB  
mA  
L
I
SC  
12  
DYNAMIC PERFORMANCE  
Voltage-Output Slew Rate  
Voltage-Output Settling Time  
Digital Feedthrough  
SR  
0.15  
0.25  
25  
5
V/µs  
µs  
To ±1/2LSB, VOUT = 2V  
Step 000 hex to FFF hex  
nV-s  
REFIN = 1kHz, 2Vp-p, (G = +1)  
REFIN = 1kHz, 2Vp-p, (G = +2)  
68  
68  
Signal-to-Noise plus Distortion  
SINAD  
dB  
POWER SUPPLY  
Positive Supply Voltage  
Negative Supply Voltage  
Positive Supply Current  
Negative Supply Current  
SWITCHING CHARACTERISTICS  
CS Setup Time  
V
4.5  
5.5  
V
V
DD  
V
SS  
-5.5  
0
I
DD  
All inputs = 0V or V , no load  
260  
400  
µA  
µA  
DD  
I
SS  
All inputs = 0V or V , no load  
-120  
-200  
DD  
t
20  
15  
0
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
ns  
CSS  
t
t
SCLK Fall to CS Fall Hold Time  
SCLK Fall to CS Rise Hold Time  
SCLK High Width  
CSH0  
CSH1  
t
35  
35  
45  
0
CH  
SCLK Low Width  
t
CL  
DS  
DH  
DO  
DIN Setup Time  
t
DIN Hold Time  
t
DOUT Valid Propagation Delay  
CS High Pulse Width  
t
C
= 50pF  
80  
L
t
20  
25  
50  
CSW  
t
CLR Pulse Width  
CLR  
t
CS Rise to SCLK Rise Setup Time  
CS1  
Note 2: In single-supply operation, INL and GE calculated from code 11 to code 4095. Tested at V = +5V.  
DD  
Note 3: This specification applies to both gain-error power-supply rejection ratio and offset-error power-supply rejection ratio.  
Note 4: Guaranteed by design.  
Note 5: Tested at I  
= 100µA. The reference can typically source up to 5mA (see Typical Operating Characteristics).  
OUT  
_______________________________________________________________________________________  
5
+5 V, Lo w -P o w e r, Vo lt a g e -Ou t p u t ,  
S e ria l 1 2 -Bit DACs  
__________________________________________Typ ic a l Op e ra t in g Ch a ra c t e ris t ic s  
(V = +5V, V  
= 2.048V, T = +25°C, unless otherwise noted.)  
A
DD  
REFIN  
INTEGRAL NONLINEARITY vs. DIGITAL  
INPUT CODE (ALL CODES)  
OUTPUT SINK CAPABILITY vs.  
OUTPUT PULL-DOWN VOLTAGE  
INTEGRAL NONLINEARITY vs. DIGITAL  
INPUT CODE (FIRST 12 CODES)  
16  
14  
12  
10  
8
0.25  
0
0.25  
DUAL SUPPLIES  
SINGLE SUPPLY  
-0.25  
-0.50  
-0.75  
-1.00  
-1.25  
0
6
4
2
0
-0.25  
0
0.2  
0.4  
0.6  
0.8  
1.0  
0
2
4
6
8
10  
12  
0
512 1024 1536 2048 2560 3072 3584 4095  
DIGITAL INPUT CODE (DECIMAL)  
OUTPUT PULL-DOWN VOLTAGE (V)  
DIGITAL INPUT CODE (DECIMAL)  
MAX531  
REFERENCE VOLTAGE vs.  
TEMPERATURE  
ANALOG FEEDTHROUGH vs.  
FREQUENCY  
OUTPUT SOURCE CAPABILITY vs.  
OUTPUT PULL-UP VOLTAGE  
-110  
-100  
-90  
2.055  
2.050  
0
CODE = 000 hex  
5
1
2
3
4
5
-80  
-70  
-60  
-50  
-40  
-30  
-20  
-10  
6
7
8
2.045  
0
-40  
-60  
-20  
0
20 40  
80 100  
1
10  
100  
1k  
10k 100k 1M  
60  
V
-5  
V
-4  
V
-3  
V
-2  
V
-1  
V -0  
DD  
DD  
DD  
DD  
DD  
DD  
TEMPERATURE (°C)  
FREQUENCY (Hz)  
OUTPUT PULL-UP VOLTAGE (V)  
SUPPLY CURRENT vs.  
TEMPERATURE  
MAX531  
GAIN vs. FREQUENCY  
MAX531  
AMPLIFIER SIGNAL-TO-NOISE RATIO  
300  
80  
70  
60  
50  
40  
30  
20  
10  
4
2
REFIN = 4Vp-p  
REFIN = 4Vp-p  
280  
260  
240  
220  
200  
180  
160  
140  
120  
0
MAX531  
-2  
-4  
-6  
-8  
-10  
-12  
MAX538/MAX539  
0
-14  
-60 -40 -20  
0
20 40 60 80 100  
10  
100  
1k  
10k  
100k  
1
100  
1k  
FREQUENCY (Hz)  
10k  
100k  
TEMPERATURE (°C)  
FREQUENCY (Hz)  
6
_______________________________________________________________________________________  
+5 V, Lo w -P o w e r, Vo lt a g e -Ou t p u t ,  
S e ria l 1 2 -Bit DACs  
18/MAX539  
____________________________Typ ic a l Op e ra t in g Ch a ra c t e ris t ic s (c o n t in u e d )  
(V = +5V, V  
= 2.048V, T = +25°C, unless otherwise noted.)  
A
DD  
REFIN  
MAX531  
GAIN AND PHASE vs. FREQUENCY  
MAX531 REFERENCE OUTPUT VOLTAGE  
vs. REFERENCE LOAD CURRENT  
20  
10  
2.0520  
2.0515  
180  
RFB CONNECTED TO AGND (G=2)  
RFB CONNECTED TO VOUT (G=1)  
GAIN  
2.0510  
2.0505  
2.0500  
2.0495  
2.0490  
0
-10  
-20  
0
PHASE  
-180  
-30  
1
10  
100  
800  
0
0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0  
REFERENCE LOAD CURRENT (mA)  
FREQUENCY (kHz)  
DIGITAL FEEDTHROUGH  
A
B
2µs/div  
CS = HIGH  
A: DIN = 4Vp-p, 100kHz  
B: VOUT, 10mV/div  
NEGATIVE SETTLING TIME (MAX531)  
POSITIVE SETTLING TIME (MAX531)  
A
A
B
B
5µs/div  
5µs/div  
V
DD  
= ±5V, V  
= 2V, BIPOLAR CONFIGURATION  
V
DD  
= ±5V, V  
= 2V, BIPOLAR CONFIGURATION  
REFIN  
REFIN  
A: CS RISING EDGE, 5V/div  
B: VOUT, NO LOAD, 1V/div  
A: CS RISING EDGE, 5V/div  
B: VOUT, NO LOAD, 1V/div  
_______________________________________________________________________________________  
7
+5 V, Lo w -P o w e r, Vo lt a g e -Ou t p u t  
S e ria l 1 2 -Bit DACs  
____________________P in De s c rip t io n  
_______________De t a ile d De s c rip t io n  
Ge n e ra l DAC Dis c u s s io n  
PIN  
The MAX531/MAX538/MAX539 use an inverted” R-2R  
ladder network with a single-supply CMOS op amp to con-  
vert 12-bit digital data to analog voltage levels (see  
Functional Diagram). The term inverted” describes the  
ladder network because the REFIN pin in current-output  
DACs is the summing junction, or virtual ground, of an op  
amp. However, such use would result in the output voltage  
b e ing the inve rs e of the re fe re nc e volta g e . The  
MAX531/MAX538/MAX539s topology makes the output  
the same polarity as the reference input.  
NAME  
FUNCTION  
MAX538  
MAX539  
MAX531  
Bipolar Offset/Gain  
Resistor  
1
BIPOFF  
DIN  
1
2
3
Serial Data Input  
Clear. Asynchronously sets  
DAC register to 000 hex.  
CLR  
An internal reset circuit forces the DAC register to reset to  
000 hex on power-up. Additionally, a clear CLR pin, when  
held low, sets the DAC register to 000 hex. CLR operates  
asynchronously and independently from the chip-select  
(CS) pin.  
4
5
2
3
SCLK  
Serial Clock Input  
Chip Select, active low  
CS  
Serial Data Output for  
daisy-chaining  
6
4
DOUT  
Bu ffe r Am p lifie r  
7
8
9
5
DGND  
AGND  
REFIN  
Digital Ground  
Analog Ground  
Reference Input  
The output buffer is a unity-gain stable, rail-to-rail output,  
BiCMOS op amp. Input offset voltage and CMRR are  
trimmed to achieve better than 12-bit performance.  
Settling time is 25µs to 0.01% of final value. The settling  
time is considerably longer when the DAC code is initially  
set to 000 hex, because at this code the op amp is com-  
pletely debiased. Start from code 001 hex if necessary.  
The output is short-circuit protected and can drive a 2k  
load with more than 100pF load capacitance.  
6
18/MAX539  
Reference Output,  
2.048V  
10  
REFOUT  
11  
12  
13  
14  
7
V
SS  
Negative Power Supply  
DAC Output  
VOUT  
8
V
DD  
Positive Power Supply  
Feedback Resistor  
RFB  
CS  
t
t
CSH0  
CSW  
t
CH  
t
t
CL  
t
CSH1  
CSS  
SCLK  
t
DH  
t
CS1  
t
DS  
DIN  
t
DO  
DOUT  
Figure 1. Timing Diagram  
8
_______________________________________________________________________________________  
+5 V, Lo w -P o w e r, Vo lt a g e -Ou t p u t ,  
S e ria l 1 2 -Bit DACs  
18/MAX539  
nite at code 000 hex. REFIN’s input capacitance is also  
code dependent and has a 50pF maximum value at sever-  
al codes. Because of the code-dependent nature of refer-  
ence input impedances, a high-quality, low-output-imped-  
ance amplifier (such as the MAX480 low-power, precision  
op amp) should be used.  
R
S
REFOUT  
TOTAL  
REFERENCE  
NOISE  
C
S
C
REFOUT  
TEK 7A22  
300  
250  
200  
150  
100  
50  
1.8  
1.6  
1.4  
1.2  
1.0  
0.8  
If an upgrade to the internal reference is required, the 2.5V  
SINGLE-POLE ROLLOFF  
MAX873A is suitable: ±15mV initial accuracy, TCV  
=
OUT  
7ppm/°C (max).  
C
= 3.3µF  
REFOUT  
Logic Inte rfa c e  
The MAX531/MAX538/MAX539 logic inputs are designed to  
be compatible with TTL or CMOS logic levels. However, to  
achieve the lowest power dissipation, drive the digital inputs  
with rail-to-rail CMOS logic. With TTL logic levels, the power  
requirement increases by a factor of approximately 2.  
0.6  
0.4  
0.2  
0
C
= 47µF  
REFOUT  
Se ria l Cloc k a nd Upda te Ra te  
0
Figure 1 shows the MAX531/MAX538/MAX539 timing. The  
0.1  
1
10  
100  
1000  
maximum serial clock rate is given by 1 / (t  
+ t ),  
CH  
CL  
FREQUENCY (kHz)  
approximately 14MHz. The digital update rate is limited by  
the chip-select period, which is 16 x (t + t ) + t  
.
CSW  
CH  
CL  
Figure 2. Reference Noise vs. Frequency  
This equals a 1.14µs, or 877kHz, update rate. However, the  
DAC settling time to 12 bits is 25µs, which may limit the  
update rate to 40kHz for full-scale step transitions.  
Inte rna l Re fe re nc e (MAX531 only)  
The on-chip reference is lesser trimmed to generate 2.048V  
at REFOUT. The output stage can source and sink current,  
so REFOUT can settle to the correct voltage quickly in  
response to code-dependent loading changes. Typically,  
source current is 5mA and sink current is 100µA.  
____________Applic a tions Inform a tion  
Refer to Figures 3a and 3b for typical operating connec-  
tions.  
Se ria l Inte rfa c e  
REFOUT connects the internal reference to the R-2R DAC  
ladder at REFIN. The R-2R ladder draws 50µA maximum  
load current. If any other connection is made to REFOUT,  
ensure that the total load current is less than 100µA to  
avoid gain errors.  
The MAX531/MAX538/MAX539 use a three-wire serial  
inte rfa c e tha t is c omp a tib le with SPI™, QSPI™  
(CPOL = CPHA = 0), and Microwire™ standards as shown  
in Figures 4 and 5. The DAC is programmed by writing two  
8-bit words (see Figure 1 and the Functional Diagram).  
Sixteen bits of serial data are clocked into the DAC MSB  
first with the MSB preceded by four fill (dummy) bits. The  
four dummy bits are not normally needed. They are  
required only when DACs are daisy-chained. Data is  
clocked in on SCLK’s rising edge while CS is low. The seri-  
al input data is held in a 16-bit serial shift register. On CSs  
rising edge, the 12 least significant bits are transferred to  
the DAC register and update the DAC. With CS high, data  
cannot be clocked into the MAX531/MAX538/MAX539.  
For applications requiring very low-noise performance,  
connect a 33µF capacitor from REFOUT to AGND. If noise  
is not a concern, a lower value capacitor (3.3µF min) may  
be used. To reduce noise further, insert a buffered RC filter  
between REFOUT and REFIN (Figure 2). The reference  
bypass capacitor, C , is still required for reference  
REFOUT  
stability. In applications not requiring the reference, con-  
nect REFOUT to V or use the MAX538 or MAX539 (no  
DD  
internal reference).  
Exte rna l Re fe re nc e  
The MAX531/MAX538/MAX539 input data in 16-bit blocks.  
The SPI and Microwire interfaces output data in 8-bit  
blocks, thereby requiring two write cycles to input data to  
the DAC. The QSPI interface allows variable data input  
from eight to 16 bits, and can be loaded into the DAC in  
one write cycle.  
An external reference in the range (V + 2V) to (V - 2V)  
SS  
DD  
may be used with the MAX531 in dual-supply operation.  
With the MAX538/MAX539 or the MAX531 in single-supply  
use, the reference must be positive and may not exceed  
V
DD  
- 2V. The reference voltage determines the DACs full-  
scale output. The DAC input resistance is code dependent  
and is minimum (40k) at code 555 hex and virtually infi-  
SPI and QSPI are trademarks of Motorola, Inc.  
Microwire is a trademark of National Semiconductor Corp.  
_______________________________________________________________________________________  
9
+5 V, Lo w -P o w e r, Vo lt a g e -Ou t p u t ,  
S e ria l 1 2 -Bit DACs  
DIN DOUT SCLK CS  
REFIN  
CLR  
DIN SCLK CS DOUT  
VOUT  
REFIN  
INVERTED  
R-2R DAC  
VOUT  
INVERTED  
R-2R DAC  
REFOUT  
2R  
2R  
2R  
RFB  
2.048V  
MAX531  
V
CONNECT BIPOFF  
TO VOUT FOR G = 1,  
TO AGND FOR G = 2,  
OR TO REFIN FOR  
BIPOLAR GAIN  
BIPOFF  
2R  
MAX538  
MAX539  
AGND DGND  
V
SS  
MAX539  
ONLY  
DD  
0.1µF  
0.1µF  
+5V  
0V TO -5V  
AGND  
V
DD  
33µF  
+5V  
0.1µF  
Figure 3b. MAX538/MAX539 Typical Operating Circuit  
Figure 3a. MAX531 Typical Operating Circuit  
supplies in this mode. In this range, 1LSB = (2)(V  
)
Da is y-Ch a in in g De vic e s  
REFIN  
-12  
-11  
(2 ) = (V  
)(2 ). The MAX539 is internally config-  
REFIN  
The serial output, DOUT, allows cascading of two or  
more DACs . The d a ta a t DIN a p p e a rs a t DOUT,  
delayed by 16 clock cycles plus one clock width. For  
low p owe r, DOUT is a CMOS outp ut tha t d oe s not  
require an external pull-up resistor. DOUT does not go  
into a high-impedance state when CS is high. DOUT  
changes on SCLK’s falling edge when CS is low. When  
CS is high, DOUT remains in the state of the last data  
bit.  
ured for unipolar gain = +2 operation.  
18/MAX539  
Bip o la r Co n fig u ra t io n  
A bipolar range is set up by connecting BIPOFF to  
REFIN a nd RFB to VOUT, a nd op e ra ting from d ua l  
(±5V) supplies (Figure 8). Table 3 shows the DAC-latch  
c onte nts (inp ut) vs . VOUT (outp ut). In this ra ng e ,  
-11  
1LSB = V  
(2 ).  
REFIN  
Fo u r-Qu a d ra n t Mu lt ip lic a t io n  
Any number of MAX531/MAX538/MAX539 DACs can  
b e d a is y-c ha ine d b y c onne c ting the DOUT of one  
device to the DIN of the next device in the chain. For  
The MAX531 can be used as a four-quadrant multiplier  
by connecting BIPOFF to REFIN and RFB to VOUT,  
using (1) an offset binary digital code, (2) bipolar power  
supplies, using dual power supplies, and (3) a bipolar  
proper timing, ensure that t (CS low to SCLK high) is  
CL  
greater than t  
+ t  
.
DO  
DS  
analog input at REFIN within the range V + 2V to V  
SS  
DD  
Un ip o la r Co n fig u ra t io n  
The MAX531 is configured for a gain of +1 (0V to V  
unipolar output) by connecting BIPOFF and RFB to  
VOUT (Figure 6). The converter operates from either sin-  
gle or dual supplies in this configuration. See Table 1 for  
- 2V, as shown in Figure 9.  
REFIN  
In general, a 12-bit DACs output is (D) (V  
where G is the gain (+1 or +2) and D” is the binary  
representation of the digital input divided by 2  
4096. This formula is precise for unipolar operation.  
However, for bipolar, offset binary operation, the MSB is  
really a polarity bit. No resolution is lost, as there are  
the same number of steps. The output voltage, howev-  
er, has been shifted from a range of, for example, 0V to  
4.096V (G = +2) to a range of -2.048V to +2.048V.  
(G),  
REFIN)  
12  
or  
the DAC-latch contents (input) vs. the analog VOUT  
-12  
(outp ut). In this ra ng e , 1LSB = V  
(2  
). The  
REFIN  
MAX538 is internally configured for unipolar gain = +1  
operation.  
A gain of +2 (0V to 2V  
unipolar output) is set up  
REFIN  
by connecting BIPOFF to AGND and RFB to VOUT  
(Figure 7). Table 2 shows the DAC-latch contents vs.  
VOUT. The MAX531 operates from either single or dual  
Keep in mind that when using the DAC as a four-quad-  
rant multiplier, the scale is skewed. Negative full scale  
is -V  
, while positive full scale is +V  
- 1LSB.  
REFIN  
REFIN  
10 ______________________________________________________________________________________  
+5 V, Lo w -P o w e r, Vo lt a g e -Ou t p u t ,  
S e ria l 1 2 -Bit DACs  
18/MAX539  
SCLK  
DIN  
SCK  
SCLK  
DIN  
SK  
SO  
MICROWIRE  
PORT  
SPI  
PORT  
MAX531  
MAX538  
MAX539  
MOSI  
MAX531  
MAX538  
MAX539  
CS  
I/O  
CS  
I/O  
SI  
DOUT  
MISO  
DOUT  
CPOL = 0, CPHA = 0  
THE DOUT-MISO CONNECTION IS NOT REQUIRED FOR WRITING TO THE  
DEVICE, BUT MAY BE USED FOR VERIFYING DATA TRANSFER .  
THE DOUT-SI CONNECTION IS NOT REQUIRED FOR WRITING TO THE  
DEVICE, BUT MAY BE USED FOR VERIFYING DATA TRANSFER .  
Figure 4. Microwire Connection  
Figure 5. SPI/QSPI Connection  
+5V  
+5V  
V
DD  
V
DD  
REFIN  
REFIN  
BIPOFF  
REFOUT  
REFOUT  
33µF  
33µF  
MAX531  
MAX531  
BIPOFF  
AGND  
DGND  
RFB  
RFB  
AGND  
V
OUT  
VOUT  
VOUT  
DGND  
V
OUT  
G = +2  
V
SS  
V
SS  
G = +1  
0V TO -5V  
0V TO -5V  
Figure 6. Unipolar Configuration (0V to +2.048V Output)  
Figure 7. Unipolar Configuration (0V to +4.096V Output)  
Table 1. Unipolar Binary Code Table  
Table 2. Unipolar Binary Code Table  
(0V to V  
Output), Gain = +1  
(0V to 2V  
Output), Gain = +2  
REFIN  
REFIN  
INPUT  
OUTPUT  
INPUT  
OUTPUT  
4095  
4096  
4095  
4096  
(V  
)
1111 1111  
1000 0000  
1111  
0001  
REFIN  
+2 (V  
)
1111 1111  
1111  
0001  
REFIN  
2049  
4096  
2049  
4096  
(V  
REFIN  
)
1000 0000  
1000 0000  
0111 1111  
+2 (V  
+2 (V  
)
REFIN  
2048  
4096  
2048  
4096  
(V  
)
= +V  
/ 2  
1000 0000  
0111 1111  
0000  
1111  
= +V  
REFIN  
REFIN  
REFIN  
)
REFIN  
0000  
1111  
2047  
4096  
2047  
4096  
(V  
REFIN  
)
)
+2 (V  
)
REFIN  
1
4096  
1
4096  
0000 0000  
0000 0000  
(V  
REFIN  
0001  
0000  
0000 0000  
0000 0000  
+2 (V  
)
0001  
0000  
REFIN  
OV  
OV  
______________________________________________________________________________________ 11  
+5 V, Lo w -P o w e r, Vo lt a g e -Ou t p u t ,  
S e ria l 1 2 -Bit DACs  
Table 3. Bipolar (Offset Binary) Code  
+5V  
Table (-V  
to +V  
Output)  
REFIN  
REFIN  
OUTPUT  
INPUT  
REFIN  
BIPOFF  
REFOUT  
2047  
2048  
(+V  
)
1111 1111  
1111  
0001  
REFIN  
33µF  
MAX531  
1
2048  
RFB  
1000 0000  
(+V  
)
REFIN  
AGND  
DGND  
1000 0000  
0111 1111  
0000  
1111  
0V  
V
OUT  
VOUT  
1
2048  
(-V  
)
)
REFIN  
2047  
2048  
0000 0000  
0000 0000  
(-V  
(-V  
0001  
0000  
REFIN  
-5V  
2048  
2048  
)
= -V  
REFIN  
REFIN  
Figure 8. Bipolar Configuration (-2.048V to +2.048V Output)  
DGND and AGND should be connected together at the  
chip. For the MAX531 in single-supply applications,  
S in g le -S u p p ly Lin e a rit y  
As with any amplifier, the MAX531/MAX538/MAX539s  
output buffer can be positive or negative. When the off-  
set is positive, it is easily accounted for (Figure 10).  
However, when the offset is negative, the buffer output  
cannot follow linearly when there is no negative supply.  
In that case, the amplifier output (VOUT) remains at  
ground until the DAC voltage is sufficient to overcome  
the offset and the output becomes positive.  
connect V to AGND at the chip. The best ground  
SS  
18/MAX539  
connection may be achieved by connecting the DACs  
DGND and AGND pins together and connecting that  
point to the system analog ground plane. If the DACs  
DGND is connected to the system digital ground, digi-  
tal noise may get through to the DACs analog portion.  
Bypass V  
(and V in dual-supply mode) with a  
SS  
DD  
0.1µF ceramic capacitor, connected between V  
and  
DD  
Normally, linearity is measured after accounting for  
zero error and gain error. Since, in single-supply opera-  
tion, the actual value of a negative offset is unknown, it  
cannot be accounted for during test. Additionally, the  
output buffer amplifier exhibits a nonlinearity near-zero  
output when operating with a single supply. To account  
for this nonlinearity in the MAX531/MAX538/MAX539,  
linearity and gain error are measured from code 11 to  
code 4095. The output buffers offset and nonlinear  
behavior do not affect monotonicity, and these DACs  
are guaranteed monotonic starting with code zero. In  
dual-supply operation, linearity and gain error are mea-  
sured from code 0 to 4095.  
AGND (and between V and AGND). Mount with short  
SS  
leads close to the device. Ferrite beads may also be  
used to further isolate the analog and digital power  
supplies.  
Fig ure s 11a a nd 11b illus tra te the g round ing a nd  
bypassing scheme described.  
S a vin g P o w e r  
When the DAC is not being used by the system, mini-  
mize power consumption by setting the appropriate  
code to minimize load current. For example, in bipolar  
mode, with a resistive load to ground, set the DAC  
code to mid-scale (Table 3). If there is no output load,  
minimize internal loading on the reference by setting  
the DAC to all 0s (on the MAX531, use CLR). Under this  
condition, REFIN is high impedance and the op amp  
op e ra te s a t its minimum q uie s c e nt c urre nt. Due to  
these low current levels, the output settling time for an  
input code close to 0 typically increases to 60µs (no  
more than 100µs).  
P o w e r-S u p p ly Byp a s s in g a n d  
Gro u n d Ma n a g e m e n t  
Best system performance is obtained with printed cir-  
c uit b oa rd s tha t us e s e p a ra te a na log a nd d ig ita l  
ground planes. Wire-wrap boards are not recommend-  
e d . The two g round p la ne s s hould b e c onne c te d  
together at the low-impedance power-supply source.  
12 ______________________________________________________________________________________  
+5 V, Lo w -P o w e r, Vo lt a g e -Ou t p u t ,  
S e ria l 1 2 -Bit DACs  
18/MAX539  
CS CLR DIN DOUT REFOUT V  
V
SS  
DD  
POSITIVE OFFSET  
2.048V  
SIGNAL  
IN  
REFIN  
VOUT  
4
3
2
1
0
INVERTED  
R-2R DAC  
NEGATIVE OFFSET  
2R  
2R  
RFB  
BIPOFF  
MAX531  
1
2
3
4
5
6 7 8  
DAC CODE (LSB)  
Figure 10. Single-Supply Offset  
Figure 9. MAX531 Connected as Four-Quadrant Multiplier. The  
unused REFOUT is connected to V  
.
DD  
AC Co n s id e ra t io n s  
ANALOG GROUND PLANE  
Digital Feedthrough  
High-speed serial data at any of the digital input or output  
pins may couple through the DAC package and cause  
internal stray capacitance to appear at the DAC output as  
noise, even though CS is held high (see Typical Operating  
Characteristics). This digital feedthrough is tested by hold-  
ing CS high, transmitting 555 hex from DIN to DOUT.  
0.1µF  
1
2
3
4
5
6
7
14  
13  
12  
11  
10  
9
Analog Feedthrough  
Because of internal stray capacitance, higher frequency  
analog input signals may couple to the output as shown in  
the Analog Feedthrough vs. Frequency graph in the  
Typical Operating Characteristics. It is tested by holding  
CS high, setting the DAC code to all 0s, and sweeping  
REFIN.  
0.1µF  
8
(a) MAX531 BYPASSING  
1
8
7
6
5
2
3
4
0.1µF  
(b) MAX538/MAX539 BYPASSING  
Figure 11. Power-Supply Bypassing  
______________________________________________________________________________________ 13  
+5 V, Lo w -P o w e r, Vo lt a g e -Ou t p u t ,  
S e ria l 1 2 -Bit DACs  
__Ord e rin g In fo rm a t io n (c o n t in u e d )  
____P in Co n fig u ra t io n s (c o n t in u e d )  
ERROR  
TOP VIEW  
PART  
TEMP. RANGE PIN-PACKAGE  
(LSB)  
±1/2  
±1  
MAX531AEPD -40°C to +85°C  
MAX531BEPD -40°C to +85°C  
MAX531AESD -40°C to +85°C  
MAX531BESD -40°C to +85°C  
14 Plastic DIP  
14 Plastic DIP  
14 SO  
BIPOFF  
RFB  
1
2
3
4
5
6
7
14  
13  
12  
11  
10  
9
±1/2  
±1  
DIN  
CLR  
V
DD  
14 SO  
MAX531  
VOUT  
MAX538ACPA  
MAX538BCPA  
MAX538ACSA  
MAX538BCSA  
MAX538BC/D  
0°C to +70°C  
0°C to +70°C  
0°C to +70°C  
0°C to +70°C  
0°C to +70°C  
8 Plastic DIP  
8 Plastic DIP  
8 SO  
±1/2  
±1  
SCLK  
CS  
V
SS  
±1/2  
±1  
REFOUT  
REFIN  
8 SO  
DOUT  
DGND  
Dice*  
±1  
AGND  
8
MAX538AEPA -40°C to +85°C  
MAX538BEPA -40°C to +85°C  
MAX538AESA -40°C to +85°C  
MAX538BESA -40°C to +85°C  
8 Plastic DIP  
8 Plastic DIP  
8 SO  
±1/2  
±1  
DIP/SO  
±1/2  
±1  
8 SO  
MAX539ACPA  
MAX539BCPA  
MAX539ACSA  
MAX539BCSA  
MAX539BC/D  
0°C to +70°C  
0°C to +70°C  
0°C to +70°C  
0°C to +70°C  
0°C to +70°C  
8 Plastic DIP  
8 Plastic DIP  
8 SO  
±1/2  
±1  
___________________Ch ip To p o g ra p h y  
±1/2  
±1  
8 SO  
DIN  
(BIPOFF)(RFB)  
V
DD  
Dice*  
±1  
18/MAX539  
MAX539AEPA -40°C to +85°C  
MAX539BEPA -40°C to +85°C  
MAX539AESA -40°C to +85°C  
MAX539BESA -40°C to +85°C  
8 Plastic DIP  
8 Plastic DIP  
8 SO  
±1/2  
±1  
±1/2  
±1  
8 SO  
(CLR)  
VOUT  
*Dice are specified at T = +25°C only.  
A
0.120"  
(3.048mm)  
SCLK  
CS  
(V  
SS  
)
(REFOUT)  
REFIN  
DOUT  
(DGND) AGND  
0.080"  
(2.032mm)  
( ) ARE FOR MAX531 ONLY.  
TRANSISTOR COUNT: 922  
SUBSTRATE CONNECTED TO V  
DD  
14 ______________________________________________________________________________________  
+5 V, Lo w -P o w e r, Vo lt a g e -Ou t p u t ,  
S e ria l 1 2 -Bit DACs  
18/MAX539  
________________________________________________________P a c k a g e In fo rm a t io n  
______________________________________________________________________________________ 15  
+5 V, Lo w -P o w e r, Vo lt a g e -Ou t p u t ,  
S e ria l 1 2 -Bit DACs  
__________________________________________P a c k a g e In fo rm a t io n (c o n t in u e d )  
18/MAX539  
Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are  
implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.  
16 __________________Ma x im In t e g ra t e d P ro d u c t s , 1 2 0 S a n Ga b rie l Drive , S u n n yva le , CA 9 4 0 8 6 (4 0 8 ) 7 3 7 -7 6 0 0  
© 1997 Maxim Integrated Products  
Printed USA  
is a registered trademark of Maxim Integrated Products.  

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