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参数资料
| 型号: | DS1870E-010+T&R |
| 厂商: | Maxim Integrated |
| 文件页数: | 13/28页 |
| 文件大小: | 0K |
| 描述: | IC CNTRLR RF POWER AMP 16TSSOP |
| 产品培训模块: | Lead (SnPb) Finish for COTS Obsolescence Mitigation Program |
| 标准包装: | 1,000 |
| RF 型: | 手机 |
| 封装/外壳: | 16-TSSOP(0.173",4.40mm 宽) |
| 供应商设备封装: | 16-TSSOP |
| 包装: | 带卷 (TR) |
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�LDMOS� RF� Power-Amplifier� Bias�
�Controller�
�Offset� =� ?� 1� � ?�
�?�
�the� full-scale� (FS)� value.� The� expected� FS� value� is� also�
�found� by� multiplying� an� all-ones� digital� answer� by� the�
�LSB� weight.�
�Example:� Since� the� FS� digital� reading� is� 65,528� (FFF8�
�hex)� LSBs,� if� the� LSB’s� weight� is� 50μV,� then� the� FS�
�value� is� 65,528� x� 50μV� =� 3.2764V.�
�A� binary� search� is� used� to� calibrate� the� gain� of� the� con-�
�verter.� This� requires� forcing� two� known� voltages� to� the�
�input� pin.� It� is� preferred� that� one� of� the� forced� voltages�
�is� the� null� input� and� the� other� is� 90%� of� FS.� Since� the�
�LSB� of� the� least� significant� bit� in� the� digital� reading� reg-�
�ister� is� known,� the� expected� digital� results� can� be� cal-�
�culated� for� both� the� null� input� and� the� 90%� of� full� scale�
�value.�
�An� explanation� of� the� binary� search� used� to� scale� the�
�gain� is� best� served� with� the� following� example� pseudo-�
�code:�
�/*� Assume� that� the� null� input� is� 0.5V� */�
�/*� Assume� that� the� requirement� for� the� LSB� is� 50μV� */�
�FS� =� 65528� *� 50e-6;� /*3.2764V� */�
�CNT1� =� 0.5� /� 50e-6;� /*� 1000� */�
�CNT2� =� 0.9� X� FS� /� 50e-6;� /*� 58981.5� */�
�/*� So� the� null� input� is� 0.5V� and� 90%� of� FS� is� 2.949V� */�
�Set� the� input’s� offset� register� to� zero�
�gain_result� =� 0h;� /*� Working� register� for� gain�
�calculation� */�
�CLAMP� =� FFF8h;� /*� This� is� the� max� ADC� value*/�
�For� n� =� 15� down� to� 0�
�begin�
�gain_result� =� gain_result� +� 2� n� ;�
�Write� gain_result� to� the� input’s�
�gain� register;�
�Force� the� 90%� FS� input� (2.949V);�
�Meas2=� ADC� result� from� DS1870;�
�If� Meas2� ≥� CLAMP�
�Then�
�gain_result� =� gain_result� -� 2� n� ;�
�Else�
�Force� the� null� input� (0.5V)�
�requiring� non-zero� null� values� (e.g.,� 0.5V)� must� next�
�calibrate� the� input’s� offset.� If� the� desired� null� value� is�
�0V,� leave� the� offset� register� programmed� to� 0000h� and�
�skip� this� step.�
�To� calibrate� the� offset� register,� program� the� gain� regis-�
�ter� with� the� gain_result� value� determined� above.� Next,�
�force� the� null� input� voltage� (0.5V� for� the� example)� and�
�read� the� digital� result� from� the� part� (Meas1).� The� offset�
�value� can� be� calculated� using� the� following� formula:�
�?� Meas� 1� ?�
�?� 4� ?�
�Temperature-Monitor� Offset� Calibration�
�The� DS1870’s� temperature� sensor� comes� precalibrated�
�and� requires� no� further� adjustment� by� the� customer� for�
�proper� operation.� However,� it� is� possible� for� customers�
�to� characterize� their� system� and� add� a� fixed� offset� to�
�the� DS1870’s� temperature� reading� so� it� is� reflective� of�
�another� location’s� temperature.� This� is� not� required� for�
�biasing� because� the� temperature� offset� can� be�
�accounted� for� by� adjusting� the� data’s� location� in� the�
�LUTs,� but� this� feature� is� available� for� customers� who�
�see� application� benefits.�
�To� change� the� temperature� sensor’s� offset:� write� the�
�temperature� offset� register� to� 0000h,� measure� the�
�source� reference� temperature� (T� ref� ),� and� read� the� tem-�
�perature� from� the� DS1870� (T� DS1870� ).� Then,� the� follow-�
�ing� formula� can� be� used� to� calculate� the� value� for� the�
�temperature� offset� register.�
�TempOffset� =� (� 64� � (� ?� 275� +� T� ref� ?� T� DS� 1870� )� )� XOR� bitwise� BB� 40� h�
�Once� the� value� is� calculated,� write� it� to� the� temperature�
�offset� register.�
�Power-Up� and� Low-Voltage� Operation�
�During� power-up,� the� device� is� inactive� until� V� CC�
�exceeds� the� digital� power-on-reset� voltage� (V� POD� ).� At�
�this� voltage,� the� digital� circuitry,� which� includes� the� I� 2� C-�
�compatible� interface,� becomes� functional.� However,�
�end;�
�Meas1� =� ADC� result� from� DS1870�
�If� [(Meas2-Meas1)>(CNT2-CNT1)]�
�Then�
�gain_result� =� gain_result� -� 2� n� ;�
�Write� gain_result� to� the� input’s� gain�
�register;�
�EEPROM-backed� registers/settings� cannot� be� internally�
�read� (recalled)� until� V� CC� exceeds� the� analog� power-on�
�reset� (V� POA� ),� at� which� time� the� remainder� or� the� device�
�becomes� fully� functional.� Once� V� CC� exceeds� V� POA� ,� the�
�Rdyb� bit� in� byte� 74h� is� timed� to� go� from� a� 1� to� a� 0� and�
�indicates� when� ADC� conversions� begin.� If� V� CC� ever�
�dips� below� V� POA� ,� the� Rdyb� bit� reads� as� a� 1� again.�
�Once� a� device� exceeds� V� POA� and� the� EEPROM� is�
�The� gain� register� is� now� set� and� the� resolution� of� the�
�conversion� matches� the� expected� LSB.� Customers�
�recalled,� the� values� remain� active� (recalled)� until� V� CC�
�falls� below� V� POD� .�
�____________________________________________________________________�
�13�
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