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参数资料
| 型号: | HI5628EVAL1 |
| 厂商: | Intersil |
| 文件页数: | 2/12页 |
| 文件大小: | 0K |
| 描述: | EVALUATION BOARD FOR LQFPHI5628 |
| 标准包装: | 1 |
| DAC 的数量: | 2 |
| 位数: | 8 |
| 采样率(每秒): | 125M |
| 数据接口: | 并联 |
| 设置时间: | 15ns |
| DAC 型: | 电流 |
| 工作温度: | -40°C ~ 85°C |
| 已供物品: | 板 |
| 已用 IC / 零件: | HI5628 |
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�Application� Note� 9840�
�Functional� Description�
�Overview�
�The� evaluation� board� is� configured� to� be� interfaced� using� a�
�VME� connector.� The� data� input� lines� are� tied� together� using�
�small,� zero� ohm� resistors� on� the� back� side� of� the� board� (QD0�
�is� tied� to� ID0,� continued� with� QD7� connected� to� ID7;� see� the�
�schematic,� R54,� 58-60,� 62,� 64-66).� This� is� done� so� that� the�
�data� can� be� driven� into� both� of� the� channels� without� having�
�to� generate� two� patterns.� This� aids� in� simplifying� the�
�evaluation� of� the� part.� If� the� user� has� the� ability� to� generate�
�dual� patterns� during� the� evaluation� process,� these� resistors�
�must� be� removed.� Both� series� and� parallel� termination�
�resistor� footprints� are� provided,� so� that� the� user� may�
�customize� the� termination� method.� An� internal� voltage�
�reference� is� available,� as� well� as� a� variable� resistor� for�
�customizing� the� output� current.� RF� transformers� are�
�populated� for� taking� advantage� of� the� complimentary� current�
�outputs.� They� can� be� disabled� from� the� circuit� by� removing�
�several� zero� ohm� resistors� if� a� simple� load� resistor� output� is�
�desired.�
�Voltage� Reference�
�The� HI5628� has� an� internal� voltage� reference� (1.16V� typical)�
�with� a� ±� 60ppm/� o� C� drift� coefficient� over� the� full� temperature�
�range� of� the� converter.� The� REFLO� pin� (15)� selects� the�
�reference.� Access� to� pin� 15� is� provided� through� the� center�
�pin� of� Jumper� J2.� To� enable� the� internal� reference,� it� is�
�necessary� that� the� jumper� be� placed� such� that� pin� 15� is�
�grounded� (J2� is� labeled� on� the� board� as� INT� and� EXT,� for�
�internal� and� external).� The� REFIO� pin� (23)� provides� access�
�to� the� internal� voltage� reference,� or� can� be� overdriven� if� the�
�user� wishes� to� use� an� external� source� for� the� reference.�
�Notice� that� a� 0.1� μ� F� capacitor� is� placed� as� close� as� possible�
�to� the� REFIO� pin.� This� capacitor� is� necessary� for� ensuring� a�
�quiet� reference� voltage.�
�If� the� user� wishes� to� use� an� external� reference� voltage,�
�jumper� J3� must� be� in� place� and� an� external� voltage�
�reference� provided� via� SMA7,� labeled� ‘EXT� REF’.� Jumper� J2�
�must� be� changed� so� that� pin� 16� is� tied� high� (the� supply�
�voltage,� which� is� the� EXT� position� of� J2)� when� using� an�
�external� reference.� The� recommended� limits� of� the� external�
�reference� are� between� 15mV� and� 1.2V,� which� provides� over�
�36dB� of� multiplying� capability.� Performance� of� the� converter�
�can� be� expected� to� decline� as� the� reference� voltage� is�
�reduced� due� to� the� reduction� in� LSB� current� size.�
�If� the� user� wishes� to� amplitude� modulate� the� reference,� the�
�REFIO� pin� can� be� overdriven� with� a� waveform.� The� input�
�multiplying� bandwidth� of� the� REFIO� input� is� approximately�
�1.4MHz.� It� is� necessary� that� the� multiplying� signal� be� DC�
�offset� so� that� the� minimum� and� maximum� peaks� of� the� signal�
�are� above� 0V� and� less� than� 1.2V.� The� output� current� of� each�
�converter� is� a� function� of� the� voltage� reference� used� and� the�
�value� of� R� SET� (R68� or� R35� on� the� schematic).� R68� is� a�
�potentiometer� that� can� be� used� to� vary� the� R� SET� if� the� user�
�2�
�wishes� to� explore� various� output� current� levels.� The� board� is�
�shipped� with� R68� set� to� ~2k� ?� .� The� converter’s� performance�
�sometimes� improves� with� reduced� output� current.� R35� is�
�provided� if� the� user� wishes� to� set� the� output� current� using� a�
�set� value.� See� the� ‘Outputs’� section� for� more� information� on�
�setting� the� output� current.�
�The� footprints� for� SMA10� and� SMA11� were� provided� on� the�
�evaluation� board� so� that� separate� multiplying� signals� could�
�be� attached,� along� with� alternate� op� amps,� to� overdrive� the�
�internal� reference� op� amps� via� ICOMP1� and� QCOMP1� to�
�increase� the� multiplying� bandwidth� of� the� references� for�
�DACs� I� and� Q� independently.� SMA11� was� placed� next� to�
�prototyping� area� so� that� an� external� op� amp� could� be� placed�
�between� E11� and� E7,� which� provides� access� to� QCOMP1�
�via� a� zero� ohm� resistor,� R69.� It� was� intended� that� this�
�capability� also� exist� between� E10� and� E6� for� access� to�
�ICOMP1� so� that� it� could� be� driven� independently� if� desired,�
�but� E6� was� mistakenly� grounded.� So� the� ability� to� overdrive�
�ICOMP1� and� QCOMP1� exists� on� this� board,� but� it� must� be�
�done� with� a� single� op� amp� and� signal� simultaneously� via�
�SMA11,� E7,� and� E11.� ICOMP1� cannot� be� driven�
�independently� using� SMA10,� E6,� and� E10.� R56� should� never�
�be� populated.� See� the� functional� block� diagram� of� the�
�HI5628� in� the� data� sheet� and� the� evaluation� board� schematic�
�located� in� this� document� for� more� information.�
�Outputs�
�The� output� current� of� the� device� is� set� by� choosing� R� SET� and�
�V� FSADJ� such� that� the� resultant� of� the� following� equation� is�
�less� than� 20mA:�
�I� OUT� =� 32� x� V� FSADJ� /� R� SET� .�
�For� example,� using� the� internal� V� FSADJ� of� 1.16V� nominal�
�and� an� R� SET� (R35� on� the� schematic)� value� of� 1.86k� ?� results�
�in� an� I� OUT� of� approximately� 20mA� (maximum� allowed).�
�Choose� the� output� loading� so� that� the� ‘Output� Voltage�
�Compliance� Range’� is� not� violated� (-0.3� to� 1.25V).� If� an�
�external� V� REF� is� chosen,� it� should� not� exceed� +1.2V.�
�The� output� can� be� configured� to� drive� a� load� resistor,� a�
�transformer,� an� operational� amplifier,� or� any� other� type� of�
�output� configuration� so� long� as� the� output� voltage�
�compliance� range� and� the� maximum� output� current� is� not�
�violated.�
�Load� Resistor� Output�
�If� the� user� wishes� to� use� only� a� load� resistor� and� no�
�transformer,� they� should� remove� the� zero� ohm� resistors� that�
�connect� the� outputs� to� the� transformers.� These� resistors� are�
�R51,� R57,� R70,� and� R72.� See� the� schematic� for� details.� The�
�output� voltage� developed� is� simply� a� function� of� the� output�
�current� multiplied� by� the� output� load.� Care� should� be� taken� to�
�ensure� that� this� voltage� does� not� violate� the� output�
�compliance� range� of� -300mV� to� 1.25V.�
�相关PDF资料 |
PDF描述 |
|---|---|
| HI5662EVAL2 | EVALUATION PLATFORM HI5662 |
| HI5714EVAL | EVALUATION PLATFORM HI5714 |
| HI5728EVAL1 | EVALUATION PLATFORM TQFPHI5728 |
| HI5731-EVS | EVALUATION PLATFORM SOIC HI5731 |
| HI5741-EVS | EVALUATION PLATFORM HI5741 |
相关代理商/技术参数 |
参数描述 |
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| HI5628IN | 功能描述:DAC DUAL 8BIT 125MSPS 48LQFP RoHS:否 类别:集成电路 (IC) >> 数据采集 - 数模转换器 系列:- 标准包装:2,400 系列:- 设置时间:- 位数:18 数据接口:串行 转换器数目:3 电压电源:模拟和数字 功率耗散(最大):- 工作温度:-40°C ~ 85°C 安装类型:表面贴装 封装/外壳:36-TFBGA 供应商设备封装:36-TFBGA 包装:带卷 (TR) 输出数目和类型:* 采样率(每秒):* |
| HI5628INZ | 功能描述:数模转换器- DAC D/A DL 8-BIT 125MSPS 48 LQFP IND TEMP RoHS:否 制造商:Texas Instruments 转换器数量:1 DAC 输出端数量:1 转换速率:2 MSPs 分辨率:16 bit 接口类型:QSPI, SPI, Serial (3-Wire, Microwire) 稳定时间:1 us 最大工作温度:+ 85 C 安装风格:SMD/SMT 封装 / 箱体:SOIC-14 封装:Tube |
| HI5630 | 制造商:INTERSIL 制造商全称:Intersil Corporation 功能描述:Triple 8-Bit, 80MSPS A/D Converter with Internal Voltage Reference |
| HI5630/8CN | 制造商:Rochester Electronics LLC 功能描述:- Bulk |
| HI5630/8CN WAF | 制造商:Harris Corporation 功能描述: |
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