参数资料
| 型号: | MAX1494CCJ+T |
| 厂商: | Maxim Integrated |
| 文件页数: | 28/34页 |
| 文件大小: | 0K |
| 描述: | IC ADC W/LCD DRIVER 32-TQFP |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 2,000 |
| 显示器类型: | LCD |
| 配置: | 7 段 + 2 个信号器 |
| 接口: | 串行 |
| 数字或字符: | A/D,4.5 位数字 |
| 电流 - 电源: | 960µA |
| 电源电压: | 2.7 V ~ 5.25 V |
| 工作温度: | 0°C ~ 70°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 32-LQFP |
| 供应商设备封装: | 32-LQFP(7x7) |
| 包装: | 带卷 (TR) |
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�3.5-� and� 4.5-Digit,� Single-Chip� ADCs�
�with� LCD� Drivers�
�Power-On� Reset�
�At� power-up,� the� serial� interface,� LCD� driver,� digital� fil-�
�ter,� and� modulator� circuits� reset.� The� registers� return� to�
�their� default� values.� Allow� time� for� the� reference� to� set-�
�tle� before� starting� calibration.�
�Offset� Calibration�
�The� MAX1492/MAX1494� offer� on-chip� offset� calibration.�
�The� device� offset-calibrates� during� every� conversion�
�when� the� OFFSET_CAL1� bit� is� 0.� Enhanced� offset� calibra-�
�tion� is� only� needed� in� the� MAX1494� when� RANGE� =� 1.�
�It� is� performed� on� demand� by� setting� the� OFFSET_CAL2�
�bit� to� 1.�
�Power-Down� Modes�
�The� MAX1492/MAX1494� feature� independent� power-�
�down� control� of� the� analog� and� digital� circuitry.� Writing� a�
�1� to� the� PD_DIG� and� PD_ANA� bits� in� the� control� register�
�powers� down� the� analog� and� digital� circuitry,� reducing�
�the� supply� current� to� 400μA.� PD_DIG� powers� down� the�
�digital� filter� and� LCD� drivers,� while� PD_ANA� powers�
�down� the� analog� modulator� and� ADC� input� buffers.�
�V� DISP� LCD� Compensation� (MAX1494� Only)�
�Adequate� display� contrast� can� be� obtained� in� most�
�applications� by� connecting� V� DISP� to� GND.� In� applica-�
�tions� where� a� wide� temperature� range� is� expected,� the�
�voltage� levels� for� some� triplexed� LCDs� may� need� to� vary�
�with� temperature� to� maintain� good� display� contrast� and�
�viewing� angle.� The� amount� of� temperature� compensation�
�depends� upon� the� type� of� liquid� crystal� used.� Display�
�manufacturers� usually� specify� the� temperature� variation�
�of� the� LCD� thresholds� voltage� (RMS� ON� -� RMS� OFF� ),� which�
�is� approximately� 1/3� of� the� peak� display� voltage.� The�
�peak� display� voltage� is� equal� to� V� DVDD� -� V� DISP�
�(MAX1494� only).� Therefore,� a� typical� -4mV/°C� tempera-�
�ture� coefficient� of� an� LCD� threshold� corresponds� to� a�
�+12mV/°C� temperature� coefficient� at� V� DISP� .�
�Peak�
�The� MAX1492/MAX1494� feature� peak-detection� circuit-�
�ry.� When� activated� (PEAK� bit� =� 1),� the� devices� display�
�only� the� highest� voltage� measured� to� the� LCD.�
�Hold�
�The� MAX1492/MAX1494� feature� data-hold� circuitry.�
�When� activated� (HOLD� bit� =� 1),� the� devices� display� the�
�current� reading� on� the� LCD.�
�Low� Battery�
�The� MAX1492/MAX1494� feature� a� low-battery� detection�
�input.� When� the� voltage� at� LOW� BATT� drops� below�
�2.048V� (typ),� the� LOW_BATT� bit� of� the� status� register�
�goes� high� and� the� LOW� BATT� segment� of� the� LCD� turns�
�on.�
�Strain� Gauge� Measurement�
�Connect� the� differential� inputs� of� the� MAX1492/�
�MAX1494� to� the� bridge� network� of� the� strain� gauge.� In�
�Figure� 20,� the� analog� supply� voltage� powers� the� bridge�
�network� and� the� MAX1492/MAX1494� along� with� the� ref-�
�erence� voltage.� The� MAX1492/MAX1494� handle� an�
�analog� input-voltage� range� of� ±200mV� and� ±2V� full�
�scale.� The� analog/reference� inputs� of� the� parts� allow�
�the� analog� input� range� to� have� an� absolute� value� of�
�anywhere� between� -2.2V� and� +2.2V.�
�Thermocouple� Measurement�
�Figure� 21� shows� a� connection� from� a� thermocouple� to�
�the� MAX1492/MAX1494.� In� this� application,� the�
�MAX1492/MAX1494� take� advantage� of� the� on-chip� input�
�buffers� that� allow� large� source� impedances� on� the� front�
�end.� The� decoupling� capacitors� reduce� noise� pickup�
�from� the� thermocouple� leads.� To� place� the� differential�
�voltage� from� the� thermocouple� at� a� suitable� common-�
�mode� voltage,� the� AIN-� input� of� the� MAX1492/MAX1494�
�is� biased� to� GND.� Use� an� external� temperature� sensor,�
�such� as� the� DS75,� and� a� μC� to� perform� cold� junction-�
�temperature� compensation.�
�4–20mA� Transmitter�
�Low-power,� single-supply� operations� make� the�
�MAX1492/MAX1494� ideal� for� loop-powered� 4–20mA�
�transmitters.� Loop-powered� transmitters� draw� their�
�power� from� the� 4–20mA� loop,� limiting� the� transmitter�
�circuitry� to� a� current� budget� of� 4mA.� Tolerances� in� the�
�loop� further� limit� this� current� budget� to� 3.5mA.� Since�
�the� MAX1492/MAX1494� only� consume� 950μA,� a� total� of�
�2.55mA� remains� to� power� the� remaining� transmitter� cir-�
�cuitry.� Figure� 22� shows� a� block� diagram� for� a� loop-�
�powered� 4–20mA� transmitter.�
�4–20mA� Measurement�
�To� measure� 4–20mA� signals,� connect� a� shunt� resistor�
�across� AIN+� and� AIN-� to� create� the� ±2V� or� ±200mV�
�input� voltage� (Figure� 23).�
�Transfer� Functions�
�Figures� 24� –27� show� the� transfer� functions� of� the�
�MAX1492/MAX1494.� The� output� data� is� stored� in� the�
�ADC� data� register� in� two’s� complement.�
�A� -1� in� the� ADC� result� register� displays� -0� on� the� LCD� as�
�shown� in� Figures� 24–27.� Negative� values� on� the� LCD�
�are� offset� by� 1.� For� example,� -100� in� the� ADC� result� reg-�
�ister� appears� as� -99� on� the� LCD.�
�Supplies,� Layout,� and� Bypassing�
�When� using� analog� and� digital� supplies� from� the� same�
�source,� isolate� the� digital� supply� from� the� analog� sup-�
�ply� with� a� low-value� resistor� (10� ?� )� or� ferrite� bead.� For�
�28�
�______________________________________________________________________________________�
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