SiI9678
各种 cable 规格
1571/PCMCIA& UL 1571/PCMCIA&CISCO CABLE
`PCMCIA Cable是個人計算机記憶卡接口用線,主要特點是“細”,用于手提電腦插卡,對于線材要求向“短、細”發展 。 UL 1571 WIRE(28AWG-34AWG) 此產品為電子芯線,主要用于筆記型計算机的机內配線。 產品編號 UL 1571 D0520B UL 1571 D0520 UL 1571 D0513 UL 1571 D0511 UL 1571 D0510 UL 1571 D0504A UL 1571 D0500 PCMICA H3515A CISCO CABLE D10456X OD 1.2 1.2 4.1 8.5 UL STYLE 1571 1571 1571 1571 1571 1571 1571 2725 CL2 32AWG*1Pair+M+AM 32AWG*1C 30AWG*1Pair 30AWG*1C/SR-PVC 30AWG*1C 28AWG*1Pair 28AWG*1C 28AWG*15C+AM+D+B 28AWG*6.5Pair+ADB 產品規格
IEEE 1394 High Speed Serial Bus CABLE
IEEE 1394是一种高速全數字符串行匯統排標准,主要用于一些數位相机、攝影机、立體音響、數位激光視盤、數位電視 机等高頻視訊產品設備 IEEE 1394a傳輸速度最低為100、200、400Mbps,1394b为800Mbps;未來發展為1.6Gbps,甚至更高。 IEEE 1394a Cable目前有兩种,一种為6Pin,其中兩芯為電源;另一种為4Pin,沒有電源線,主要用于家庭視廳AV設備。 IEEE 1394b 目前为9Pin; IEEE 1394最多可連接63個外部裝置,其中需用Splitter進行樹狀网絡形式連接,無需主控電腦。 IEEE 1394于1995年正式被電气電子工程協會制定為國際標准。 1394a: 1394a: 產品編號 H7306B H1904A D7306 D1904B 1394b: 1394b: H7306AE H7306AF 5.5 6.9 20276 20276 (30AWG*1P+2D+CU-PT+M)*2Pcs+26AWG*2C+M+AB (26AWG*1P+2D+CU-PT+M)*2Pcs+22AWG*2C+M+AB OD 6 4.8 6 4.8 UL STYLE 20276 20379 20276 20379 (30AWG*2Pair+AM+SP)*2Pcs+M+B [(28AWG*1Pairs+AM+B)*2Pcs+22AWG*2C]+M+AM+B (30AWG*1Pair+AM+SP)*2Pcs+M+B 產品規格 [(28AWG*1Pair+AM+B)*2Pcs+22AWG*2C]+M+AM+B
sii9777scluc规格书
SII9777SCLU规格书一、设备概述SII9777SCLU是一款高性能的模拟-数字转换器(ADC),适用于各种高精度测量和控制系统。
它具有高分辨率、低噪声、低失真和低功耗等优点,能够满足各种复杂应用的需求。
二、设备规格1. 分辨率:16位2. 采样率:最高250ksps3. 输入电压范围:±10V4. 精度:±0.5LSB5. 信噪比(SNR):≥80dB6. 总谐波失真(THD):≤-90dB7. 电源电压:±5V8. 工作温度:-40℃~+85℃三、引脚配置SII9777SCLU采用标准的SOIC封装,共有20个引脚。
引脚排列如下:1. Vrefp (正参考电压输入)2. Vrefn (负参考电压输入)3. Vinp (正模拟输入)4. Vinn (负模拟输入)5. CLK (时钟输入)6. DOUT (数据输出)7. Vcc (电源正极)8. GND (地线)9-20. 无连接或可用于其他扩展功能。
四、电气特性1. 参考电压范围:±10V2. 时钟频率:最高1MHz3. 数据输出速率:最高25MHz4. 功耗:≤180mW (典型值)5. 输入阻抗:≥1MΩ6. 输出阻抗:≤50Ω7. 输入偏置电流:≤1nA8. 输入失调电压:≤10μV (典型值)9. 线性误差:≤±0.5LSB (最大值)10. 温漂:≤±1LSB/℃ (最大值)五、机械规格尺寸:4mm x 4mm x 1.3mm (SOIC封装)重量:约0.2g (根据封装和材料的不同会有所变化) 材料:塑料封装,金属引脚。
东智目前下单的机型
中兴PON
中兴机顶盒
STB-B860A-F2 STB-B860A-F3 STB-B860A-T STB-B860A-T1 STB-B860A-U STB-B860G-A TPE-2201N TPE-2201N-B TPE-2201S TPE-2600T TPE-3099H TPE-3200C-A TPE-3200C-C TPE-3201L
东智目前下单的机型
客户 东智机型 F400 V6.1 自研芯片ZX279112售卖 F412/F407Za V6.1 ZX279112 售卖 F451 F452 F460/F427 V6.1 ZX279100a售卖 语 音芯片Si32182 F600 V6.1/F633 F612/F607Za/F603/F603Za V6.1 ZX279112 售卖 降成本方案 F620/F613/F613Za V6 自研芯片 X279112售卖 F651-2口悦me 自研芯片ZX279101售卖 F652-2+1悦me 自研芯片ZX279101售卖 F660/F627Za/F623/F623Za V6.1 ZX279100a售卖 F663N V1.0 IMS F450 V2.0 F650 V2.0 F450A V2.0 F650A V2.0 STB-B700V5S1-B STB-B760HS3A-A STB-B860A-C STB-B860A-F STB-B860A-F1 中兴机顶盒 客户机型 2299K TPE-2600R TPE-2612A TPE-2616A TPE-2208H-E TPE-3299K TPE-3600P/3600R TPE-3200D TPE-3612A TPE-3616A 3208H-H/G/J TPE-3208U TPE-2216Z TPE-3216Z TPE-2217Z TPE-3217Z B700V5S1 B760HS3-A B860AV1.1 B860AV2.1 B860AV2.1?T
沃希欧 Siliconix Si4946BEY 双极性 60V 175℃ 沉浸式FET数据手册说明书
Vishay SiliconixSi4946BEYDocument Number: Dual N-Channel 60-V (D-S) 175 °C MOSFETFEATURES•Halogen-free According to IEC 61249-2-21Definition•TrenchFET ® Power MOSFET•175 °C Maximum Junction Temperature •100 % R g Tested•Compliant to RoHS directive 2002/95/ECPRODUCT SUMMARYV DS (V)R DS(on) (Ω)I D (A)Q g (Typ.)600.041 at V GS = 10 V 6.59.2 nC0.052 at V GS = 4.5 V5.8Notes:a. Surface Mounted on 1" x 1" FR4 board.b. t = 10 s.c. Rework Conditions: manual soldering with a soldering iron is not recommended for leadless components.d. Maximum under Steady State conditions is 110 °C/W. ABSOLUTE MAXIMUM RATINGS T A = 25 °C, unless otherwise notedarameter Symbol Limit UnitDrain-Source Voltage V DS 60VGate-Source VoltageV GS± 20Continuous Drain Current (T J = 150 °C)T C = 25 °CI D 6.5A T C = 70 °C 5.5T A = 25 °C 5.3a, b T A = 70 °C4.4a, b Pulsed Drain CurrentI DM 30Continuous Source Drain Diode Current T C = 25 °C I S 3.1T A = 25 °C 2a, b Avalanche CurrentL = 0 1 mH I AS 12Single-Pulse Avalanche EnergyE AS 7.2mJ Maximum Power DissipationT C = 25 °CP D 3.7W T C = 70 °C 2.6T A = 25 °C 2.4a, b T A = 70 °C1.7a, b Operating Junction and Storage T emperature RangeT J , T stg - 55 to 175°C THERMAL RESISTANCE RATINGSarameter Symbol Typical Maximum UnitMaximum Junction-to-Ambient a, c t ≤ 10 s R thJA 5062.5°C/WMaximum Junction-to-Foot (Drain)Steady StateR thJF3341 Document Number: 73411Vishay SiliconixSi4946BEYNotes:a. Pulse test; pulse width ≤ 300 µs, duty cycle ≤ 2 %.b. Guaranteed by design, not subject to production testing.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.SPECIFICATIONS T J = 25 °C, unless otherwise notedarameter Symbol Test Conditions Min.Typ.Max.Unit StaticDrain-Source Breakdown Voltage V DS V GS = 0 V , I D = 250 µA60VV DS Temperature Coefficient ΔV DS /T J I D = 250 µA 53mV/°C V GS(th) Temperature Coefficient ΔV GS(th)/T J - 6.7Gate-Source Threshold Voltage V GS(th) V DS = V GS , I D = 250 µA 1.02.43.0VGate-Source LeakageI GSS V DS = 0 V , V GS = ± 20 V ± 100 nAZero Gate Voltage Drain Current I DSS V DS = 60 V, V GS = 0 V 1µA V DS = 60 V , V GS = 0 V, T J = 55 °C10On-State Drain Current aI D(on) V DS ≥ 5 V , V GS = 10 V 30A Drain-Source On-State Resistance a R DS(on) V GS = 10 V , I D = 5.3 A 0.0330.041ΩV GS = 4.5 V , I D = 4.7 A 0.0410.052Forward T ransconductance a g fs V DS = 15 V , I D = 5.3 A24SDynamicbInput Capacitance C iss V DS = 30 V, V GS = 0 V , f = 1 MHz 840pFOutput CapacitanceC oss 71Reverse Transfer Capacitance C rss 44Total Gate Charge Q g V DS = 30 V, V GS = 10 V, ID = 5.3 A 1725nCV DS = 30 V , V GS = 5 V, I D = 5.3 A9.212Gate-Source Charge Q gs 3.3Gate-Drain Charge Q gd 3.7Gate Resistance R g f = 1 MHz3.16.59.5ΩTurn-On Delay Time t d(on) V DD = 30 V , R L = 6.8 ΩI D ≅ 4.4 A, V GEN = 4.5 V , R g = 1 Ω2030nsRise Timet r 120180Turn-Off Delay Time t d(off) 2030Fall Timet f 3045Turn-On Delay Time t d(on) V DD = 30 V , R L = 6.8 Ω I D ≅ 4.4 A, V GEN = 10 V , R g = 1 Ω1015Rise Timet r 1220Turn-Off Delay Time t d(off) 2540Fall Timet f1015Drain-Source Body Diode Characteristics Continuous Source-Drain Diode Current I S T C = 25 °C3.1A Pulse Diode Forward Current a I SM 30Body Diode VoltageV SD I S = 2 A0.8 1.2V Body Diode Reverse Recovery Time t rr I F = 4.4 A, dI/dt = 100 A/µs, T J = 25 °C2550ns Body Diode Reverse Recovery Charge Q rr 2550nC Reverse Recovery Fall Time t a 18nsReverse Recovery Rise Timet b7Document Number: On-Resistance vs. Drain Current and Gate VoltageTransfer CharacteristicsCapacitance Document Number: 73411Vishay SiliconixSi4946BEYTYPICAL CHARACTERISTICS 25°C, unless otherwise notedSource-Drain Diode Forward VoltageThreshold VoltageOn-Resistance vs. Gate-to-Source VoltageSingle Pulse Power, Junction-to-AmbientDocument Number: Vishay SiliconixSi4946BEYTYPICAL CHARACTERISTICS 25°C, unless otherwise noted* The power dissipation P D is based on T J(max) = 175 °C, using junction-to-case thermal resistance, and is more useful in settling the upper dissipation limit for cases where additional heatsinking is used. It is used to determine the current rating, when this rating falls below the package limit.Current Derating*Power, Junction-to-CaseSingle Pulse Avalanche CapabilitySi4946BEYVishay SiliconixTYPICAL CHARACTERISTICS 25°C, unless otherwise notedNormalized Thermal Transient Impedance, Junction-to-CaseVishay Siliconix maintains worldwide manufacturing capability. Products may be manufactured at one of several qualified locations. Reliability data for Silicon Technology and Package Reliability represent a composite of all qualified locations. For related documents such as package/tape drawings, part marking, and reliability data, see /ppg?73411. Document Number: 73411Vishay SiliconixPackage InformationDocument Number: DIM MILLIMETERSINCHESMin Max Min Max A 1.35 1.750.0530.069A 10.100.200.0040.008B 0.350.510.0140.020C 0.190.250.00750.010D 4.80 5.000.1890.196E 3.804.000.1500.157e 1.27 BSC0.050 BSCH 5.80 6.200.2280.244h 0.250.500.0100.020L 0.500.930.0200.037q 0°8°0°8°S0.440.640.0180.026ECN: C-06527-Rev. I, 11-Sep-06DWG: 5498V I S H A Y S I L I C O N I XTrenchFET ® Power MOSFETsMounting LITTLE FOOT ®, SO-8 Power MOSFETsA P P L I C A T I O N N O T EWharton McDanielSurface-mounted LITTLE FOOT power MOSFETs use integrated circuit and small-signal packages which have been been modified to provide the heat transfer capabilities required by power devices. Leadframe materials and design, molding compounds, and die attach materials have been changed, while the footprint of the packages remains the same.See Application Note 826, Recommended Minimum Pad Patterns With Outline Drawing Access for Vishay Siliconix MOSFETs, (/ppg?72286), for the basis of the pad design for a LITTLE FOOT SO-8 power MOSFET. In converting this recommended minimum pad to the pad set for a power MOSFET, designers must make two connections: an electrical connection and a thermal connection, to draw heat away from the package.In the case of the SO-8 package, the thermal connections are very simple. Pins 5, 6, 7, and 8 are the drain of the MOSFET for a single MOSFET package and are connected together. In a dual package, pins 5 and 6 are one drain, and pins 7 and 8 are the other drain. For a small-signal device or integrated circuit, typical connections would be made with traces that are 0.020 inches wide. Since the drain pins serve the additional function of providing the thermal connection to the package, this level of connection is inadequate. The total cross section of the copper may be adequate to carry the current required for the application, but it presents a large thermal impedance. Also, heat spreads in a circular fashion from the heat source. In this case the drain pins are the heat sources when looking at heat spread on the PC board.Figure 1. Single MOSFET SO-8 Pad Pattern With Copper SpreadingFigure 2. Dual MOSFET SO-8 Pad PatternWith Copper SpreadingThe minimum recommended pad patterns for the single-MOSFET SO-8 with copper spreading (Figure 1) and dual-MOSFET SO-8 with copper spreading (Figure 2) show the starting point for utilizing the board area available for the heat-spreading copper. To create this pattern, a plane of copper overlies the drain pins. The copper plane connects the drain pins electrically, but more importantly provides planar copper to draw heat from the drain leads and start the process of spreading the heat so it can be dissipated into the ambient air. These patterns use all the available area underneath the body for this purpose.Since surface-mounted packages are small, and reflow soldering is the most common way in which these are affixed to the PC board, “thermal” connections from the planar copper to the pads have not been used. Even if additional planar copper area is used, there should be no problems in the soldering process. The actual solder connections are defined by the solder mask openings. By combining the basic footprint with the copper plane on the drain pins, the solder mask generation occurs automatically.A final item to keep in mind is the width of the power traces.The absolute minimum power trace width must be determined by the amount of current it has to carry. For thermal reasons, this minimum width should be at least 0.020 inches. The use of wide traces connected to the drain plane provides a low impedance path for heat to move away from the device.Application Note 826Vishay SiliconixA P P L I C A T I O N N O T ERECOMMENDED MINIMUM PADS FOR SO-8Legal Disclaimer Notice VishayDisclaimerALL PRODU CT, PRODU CT SPECIFICATIONS AND DATA ARE SU BJECT TO CHANGE WITHOU T NOTICE TO IMPROVE RELIABILITY, FUNCTION OR DESIGN OR OTHERWISE.Vishay Intertechnology, Inc., its affiliates, agents, and employees, and all persons acting on its or their behalf (collectively,“Vishay”), disclaim any and all liability for any errors, inaccuracies or incompleteness contained in any datasheet or in any other disclosure relating to any product.Vishay makes no warranty, representation or guarantee regarding the suitability of the products for any particular purpose or the continuing production of any product. To the maximum extent permitted by applicable law, Vishay disclaims (i) any and all liability arising out of the application or use of any product, (ii) any and all liability, including without limitation special, consequential or incidental damages, and (iii) any and all implied warranties, including warranties of fitness for particular purpose, non-infringement and merchantability.Statements regarding the suitability of products for certain types of applications are based on Vishay’s knowledge of typical requirements that are often placed on Vishay products in generic applications. Such statements are not binding statements about the suitability of products for a particular application. It is the customer’s responsibility to validate that a particular product with the properties described in the product specification is suitable for use in a particular application. Parameters provided in datasheets and/or specifications may vary in different applications and performance may vary over time. All operating parameters, including typical parameters, must be validated for each customer application by the customer’s technical experts. Product specifications do not expand or otherwise modify Vishay’s terms and conditions of purchase, including but not limited to the warranty expressed therein.Except as expressly indicated in writing, Vishay products are not designed for use in medical, life-saving, or life-sustaining applications or for any other application in which the failure of the Vishay product could result in personal injury or death. Customers using or selling Vishay products not expressly indicated for use in such applications do so at their own risk. Please contact authorized Vishay personnel to obtain written terms and conditions regarding products designed for such applications. No license, express or implied, by estoppel or otherwise, to any intellectual property rights is granted by this document or by any conduct of Vishay. Product names and markings noted herein may be trademarks of their respective owners.Material Category PolicyVishay Intertechnology, Inc. hereby certifies that all its products that are identified as RoHS-Compliant fulfill the definitions and restrictions defined under Directive 2011/65/EU of The European Parliament and of the Council of June 8, 2011 on the restriction of the use of certain hazardous substances in electrical and electronic equipment (EEE) - recast, unless otherwise specified as non-compliant.Please note that some Vishay documentation may still make reference to RoHS Directive 2002/95/EC. We confirm that all the products identified as being compliant to Directive 2002/95/EC conform to Directive 2011/65/EU.Vishay Intertechnology, Inc. hereby certifies that all its products that are identified as Halogen-Free follow Halogen-Free requirements as per JEDEC JS709A standards. Please note that some Vishay documentation may still make reference to the IEC 61249-2-21 definition. We confirm that all the products identified as being compliant to IEC 61249-2-21 conform to JEDEC JS709A standards.Revision: 02-Oct-121Document Number: 91000。
SII2024中文资料
On a per-channel basis, the SiI 2024 supports selectable transmit and receive data rates for automatic speed negotiation. It also utilizes 10-bit SSTL_2-compatible interfaces for each channel’s parallel data input/output. For added flexibility in some system applications, the SiI 2024 offers pre-emphasis and voltage swing control on the serial transmit ports. The SiI 2024 is available in a 324-pin, 23x23mm PBGA package and supports JTAG for improved testability.
CTRL
JTAG CTRL
Low Power
• Single 1.8V supply for core circuits and 2.5V supply for parallel I/O
• Power dissipation: 250 mW per channel
Cost Effective
• Standard CMOS technology • Plastic 324-pin PBGA
元器件交易网
SiI 2024 Fibre Channel Quad SerDes
Silicon Image's SiI 2024 Quad serializer/deserializer (SerDes) is capable of transmitting and receiving four independent channels of data at 1.0625 and 2.125 gigabits-per-second (Gbps). Targeted at Fibre Channel applications, the SiI 2024 Quad SerDes is designed for power, performance and price. Making use of a robust CMOS design that significantly reduces power dissipation and jitter, the SiI 2024 provides a low-cost solution for applications that require multiple-channel, high-performance Fibre Channel SerDes. By offering four integrated, low-power SerDes in one package, the SiI 2024 reduces board space and power requirements traditionally needed for Fibre Channel SerDes.
sii参数对照表1
产品名/项目 过充电检测电压[VCU] 过充电解除电压[VCD] S-8232AAFT-T2-G 4.25 V ±25 mV 4.05 V ±50 mVS-8232ABFT-T2-G 4.35 V ±25 mV 4.15 V ±50 mVS-8232ACFT-T2-G 4.35 V ±25 mV 4.15 V ±50 mVS-8232AEFT-T2-G 4.35 V ±25 mV 4.28 V ±50 mVS-8232AFFT-T2-G 4.25 V ±25 mV 4.05 V ±50 mVS-8232AGFT-T2-G 4.25 V ±25 mV 4.05 V ±50 mVS-8232AHFT-T2-G 4.25 V ±25 mV 4.05 V ±50 mVS-8232AIFT-T2-G 4.325 V ±25 mV*1,*24.325 V ±25 mV S-8232AJFT-T2-G 4.25 V ±25 mV 4.05 V ±50 mVS-8232AKFT-T2-G 4.20 V ±25 mV 4.00 V ±50 mVS-8232ALFT-T2-G 4.30 V ±25 mV 4.05 V ±50 mVS-8232AMFT-T2-G 4.19 V ±25 mV 4.19 V±25 mVS-8232ANFT-T2-G 4.325 V ±25 mV 4.325 V ±25 mVS-8232AOFT-T2-G 4.30 V ±25 mV 4.05 V ±50 mVS-8232APFT-T2-G 4.28 V ±25 mV 4.05 V ±50 mVS-8232ARFT-T2-G 4.325 V ±25 mV 4.325 V ±25 mVS-8232ASFT-T2-G 4.295 V ±25 mV 4.20 V ±50 mVS-8232ATFT-T2-G 4.125 V ±25 mV 4.125 V ±25 mVS-8232AUFT-T2-G 4.30 V ±25 mV 4.1 V ±50 mVS-8232AVFT-T2-G 4.30 V ±25 mV 4.05 V ±50 mVS-8232AWFT-T2-G 4.35 V ±25 mV 4.15 V ±50 mVS-8232AXFT-T2-G 4.325 V ±25 mV 4.200 V ±50 mVS-8232AYFT-T2-G 4.30 V ±25 mV 4.05 V ±50 mVS-8232AZFT-T2-G 4.30 V ±25 mV 4.05 V ±50 mVS-8232NAFT-T2-G 4.325 V ±25 mV 4.325 V ±25 mVS-8232NBFT-T2-G 4.35 V±25 mV 4.25 V±50 mVS-8232NCFT-T2-G 4.275 V ±25 mV 4.05 V ±50 mVS-8232NDFT-T2-G 4.35 V ±25 mV 4.15 V ±50 mVS-8232NEFT-T2-G 4.35 V±25 mV 4.15 V±50 mVS-8232NFFT-T2-G 4.325 V±25 mV 4.1 V±50 mVS-8232NGFT-T2-G 4.35 V±25 mV 4.15 V±50 mVS-8232NHFT-T2-G 4.28 V±25 mV 4.05 V±50 mVS-8232NIFT-T2-G 4.25 V±25 mV 4.05 V±50 mVS-8232NJFT-T2-G 4.28 V±25 mV 4.05 V±50 mVS-8232NKFT-T2-G 4.35 V±25 mV 4.15 V±50 mVS-8232NLFT-T2-G 4.30 V±25 mV 4.05 V±50 mVS-8232NMFT-T2-G 4.28 V±25 mV 4.05 V±50 mVS-8232NNFT-T2-G 4.28 V±25 mV 4.08 V±50 mVS-8232NOFT-T2-G 4.295 V±25 mV 4.045 V±50 mVS-8232NPFT-T2-G 4.25 V±25 mV 4.05 V±50 mVS-8232NQFT-T2-G 4.25 V±25 mV 4.05 V±50 mVS-8232NRFT-T2-G 4.15 V±25 mV 3.95 V±50 mVS-8232NSFT-T2-G 4.15 V±25 mV 3.95 V±50 mVS-8232NTFT-T2-G 4.225 V±25 mV 4.15 V±50 mVS-8232NUFT-T2-G 3.85 V±25 mV 3.75 V±50 mVS-8232NWFT-T2-G 4.210 V±25 mV 4.125 V±50 mV产品名/项目过充电检测电压[VCU] 过充电解除电压[VCL] S-8254AAAFT-TB-G 4.350 ± 0.025 V 4.150 ± 0.050 VS-8254AABFT-TB-G 4.250 ± 0.025 V 4.250 ± 0.025 VS-8254AAEFT-TB-G 4.350 ± 0.025 V 4.150 ± 0.050 VS-8254AAFFT-TB-G 4.350 ± 0.025 V 4.150 ± 0.050 VS-8254AAGFT-TB-G 4.275 ± 0.025 V 4.075 ± 0.050 VS-8254AAHFT-TB-G 4.350 ± 0.025 V 4.150 ± 0.050 VS-8254AAIFT-TB-G 4.350 ± 0.025 V 4.150 ± 0.050 VS-8254AAJFT-TB-G 4.350 ± 0.025 V 4.150 ± 0.050 VS-8254AAKFT-TB-G 4.350 ± 0.025 V 4.150 ± 0.050 VS-8254AALFT-TB-G 4.300 ± 0.025 V 4.150 ± 0.050 VS-8254AAMFT-TB-G 4.200 ± 0.025 V 4.100 ± 0.050 VS-8254AANFT-TB-G 4.250 ± 0.025 V 4.150 ± 0.050 VS-8254AAOFT-TB-G 4.300 ± 0.025 V 4.080 ± 0.050 VS-8254AAPFT-TB-G 4.280 ± 0.025 V 4.130 ± 0.050 VS-8254AAQFT-TB-G 3.900 ± 0.025 V 3.800 ± 0.050 VS-8254AARFT-TB-G 4.350 ± 0.025 V 4.150 ± 0.050 VS-8254AASFT-TB-G 4.290 ± 0.025 V 4.090 ± 0.050 VS-8254AATFT-TB-G 4.200 ± 0.025 V 4.200 ± 0.025 VS-8254AAUFT-TB-G 4.350 ± 0.025 V 4.150 ± 0.050 VS-8254AAVFT-TB-G 4.250 ± 0.025 V 4.150 ± 0.050 VS-8254AAWFT-TB-G 4.250 ± 0.025 V 4.100 ± 0.050 VS-8254AAXFT-TB-G 4.250 ± 0.025 V 4.100 ± 0.050 VS-8254AAYFT-TB-G 4.275 ± 0.025 V 4.125 ± 0.050 VS-8254AAZFT-TB-G 4.250 ± 0.025 V 4.150 ± 0.050 VS-8254ABAFT-TB-G 3.900 ± 0.025 V 3.800 ± 0.050 VS-8254ABBFT-TB-G 4.200 ± 0.025 V 4.200 ± 0.050 VS-8254ABCFT-TB-G 4.175 ± 0.025 V 3.975 ± 0.050 V产品名/项目 过充电检测电压 [VCU] 过充电滞后电压[VHC] S-8261AAGMD-G2GT2G 4.280 V0.20 VS-8261AAHMD-G2HT2G 4.280 V0.20 VS-8261AAJMD-G2JT2G 4.325 V0.25 VS-8261AALMD-G2LT2G 4.300 V0.10 VS-8261AAMMD-G2MT2G 4.300 V0.10 VS-8261AANMD-G2NT2G 4.275 V0.10 VS-8261AAOMD-G2OT2G 4.280 V0.20 VS-8261AAPMD-G2PT2G 4.325 V0.25 VS-8261AARMD-G2RT2G 4.280 V0.20 VS-8261AASMD-G2ST2G 4.280 V0.20 VS-8261AATMD-G2TT2G 4.300 V0.10 VS-8261AAUMD-G2UT2G 4.275 V0.10 VS-8261AAXMD-G2XT2G 4.350 V0.10 VS-8261AAZMD-G2ZT2G 4.280 V0.25 VS-8261ABAMD-G3AT2G 4.350 V0.20 V S-8261ABBMD-G3BT2G 4.275 V0.20 V S-8261ABCMD-G3CT2G 4.300 V0.20 V S-8261ABIMD-G3IT2G 4.275 V0.20 V S-8261ABJMD-G3JT2G 4.280 V0.20 V S-8261ABKMD-G3KT2G 4.100 V0.25 V S-8261ABLMD-G3LT2G 4.275 V0.20 V S-8261ABMMD-G3MT2G 4.280 V0.20 V S-8261ABNMD-G3NT2G 4.300 V0.20 V S-8261ABPMD-G3PT2G 4.200 V0.10 V S-8261ABRMD-G3RT2G 4.275 V0.20 V S-8261ABSMD-G3ST2G 4.280 V0.10 V S-8261ABTMD-G3TT2G 4.280 V0.20 V S-8261ABYMD-G3YT2G 4.275 V0.10 V S-8261ABZMD-G3ZT2G 4.325 V0.25 V S-8261ACAMD-G4AT2G 4.280 V0.20 V S-8261ACBMD-G4BT2G 4.250 V0.20 V S-8261ACDMD-G4DT2G 4.350 V0.25 V S-8261ACEMD-G4ET2G 3.900 V0.10 V S-8261ACFMD-G4FT2G 4.280 V0.20 V S-8261ACHMD-G4HT2G 4.465 V0.30 V S-8261ACIMD-G4IT2G 4.250 V0.20 V S-8261ACKMD-G4KT2G 4.280 V0.20 V S-8261ACMMD-G4MT2G 4.325 V0.20 V过放电检测电压[VDD] 过放电解除电压[VDU] 过电流检测电压[VIOV] 2.40 V ±80 mV 3.00 V ±100 mV0.150 V ±20 mV2.30 V ±80 mV3.00 V ±100 mV0.300 V ±20 mV2.30 V ±80 mV3.00 V ±100 mV0.300 V ±20 mV2.15 V ±80 mV 2.80 V ±100 mV0.100 V ±20 mV2.30 V ±80 mV 2.70 V ±100 mV0.300 V ±20 mV2.20 V ±80 mV 2.40 V ±100 mV0.200 V ±20 mV2.20 V ±80 mV 2.40 V ±100 mV0.300 V ±20 mV2.40 V ±80 mV3.00 V ±100 mV0.300 V ±20 mV2.40 V ±80 mV3.00 V ±100 mV0.150 V ±20 mV2.30 V ±80 mV 2.90 V ±100 mV0.200 V ±20 mV2.00 V ±80 mV3.00 V ±100 mV0.200 V ±20 mV2.00 V ±80 mV3.00 V ±100 mV0.190 V ±20 mV2.40 V ±80 mV3.00 V ±100 mV0.300 V ±20 mV2.00 V ±80 mV3.00 V ±100 mV0.230 V ±20 mV2.30 V ±80 mV 2.90 V ±100 mV0.100 V ±20 mV2.00 V ±80 mV 2.50 V ±100 mV0.300 V ±20 mV2.30 V ±80 mV3.00 V ±100 mV0.300 V ±20 mV2.00 V ±80 mV3.00 V ±100 mV0.190 V ±20 mV2.40 V ±80 mV3.00 V ±100 mV0.200 V ±20 mV2.00 V ±80 mV3.00 V ±100 mV0.300 V ±20 mV2.30 V ±80 mV3.00 V ±100 mV0.150 V ±20 mV2.30 V ±80 mV3.00 V ±100 mV0.20 V ±20 mV2.00 V ±80 mV 2.00 V ±80 mV0.20 V ±20 mV2.30 V ±80 mV 2.30 V ±80 mV0.20 V ±20 mV2.40 V ±80 mV3.00 V ±100 mV0.15 V ±20 mV3.00 V±80 mV 3.70 V±100 mV0.30 V±20 m V2.20 V ±80 mV3.00 V ±100 mV0.20 V ±20 mV2.30 V ±80 mV 2.30 V ±80 mV0.15 V ±20 mV2.30 V±80 mV3.00 V±100 mV0.23 V±20 mV2.30 V±80 mV 2.90 V±100 mV0.21 V±20 mV2.60 V±80 mV3.00 V±100 mV0.30 V±20 mV2.30 V±80 mV 2.90 V±100 mV0.11 V±20 mV2.50 V±80 mV3.00 V±100 mV0.15 V±20 mV2.30 V±80 mV 2.90 V±100 mV0.11 V±20 mV2.30 V±80 mV 2.30 V±80 mV0.12 V±20 mV2.30 V±80 mV3.00 V±100 mV0.23 V±20 mV2.30 V±80 mV 2.90 V±100 mV0.08 V±20 mV2.20 V±80 mV 2.40 V±100 mV0.13 V±20 mV2.20 V±80 mV 2.40 V±100 mV0.13 V±20 m V2.30 V±80 mV3.00 V±100 mV0.30 V±20 m V2.60 V±80 mV3.00 V±100 mV0.30 V±20 m V2.60 V±80 mV3.00 V±100 mV0.30 V±20 m V2.30 V±80 mV3.00 V±100 mV0.30 V±20 mV2.00 V±80 mV 2.00 V±100 mV0.09 V±20 mV2.23 V±80 mV 2.23 V±80 mV0.15 V±20 mV2.00 V±80 mV 2.00 V±80 mV0.09 V±20 mV过放电检测电压[VDL] 过放电解除电压[VDU]过电流检测电压1[VIOV1] 2.00 ± 0.080 V 2.70 ± 0.100 V0.30 ± 0.025 V2.00 ± 0.080 V 2.70 ± 0.100 V0.30 ± 0.025 V2.00 ± 0.080 V 2.70 ± 0.100 V0.20 ± 0.025 V2.40 ± 0.080 V3.00 ± 0.100 V0.20 ± 0.025 V2.30 ± 0.080 V 2.70 ± 0.100 V0.13 ± 0.025 V2.40 ± 0.080 V 2.70 ± 0.100 V 0.10 ± 0.025 V2.40 ± 0.080 V3.00 ± 0.100 V 0.30 ± 0.025 V2.40 ± 0.080 V3.00 ± 0.100 V 0.15 ± 0.025 V2.70 ± 0.080 V3.00 ± 0.100 V 0.20 ± 0.025 V2.40 ± 0.080 V3.00 ± 0.100 V 0.20 ± 0.025 V2.50 ± 0.080 V 2.70 ± 0.100 V 0.30 ± 0.025 V2.50 ± 0.080 V3.00 ± 0.100 V 0.10 ± 0.025 V2.50 ± 0.080 V3.00 ± 0.100 V 0.10 ± 0.025 V3.00 ± 0.080 V 3.00 ± 0.080 V 0.15 ± 0.025 V2.30 ± 0.080 V 2.70 ± 0.100 V 0.30 ± 0.025 V2.80 ± 0.080 V3.00 ± 0.100 V 0.20 ± 0.025 V2.30 ± 0.080 V3.00 ± 0.100 V 0.075 ± 0.025 V2.00 ± 0.080 V 2.70 ± 0.100 V 0.30 ± 0.025 V2.40 ± 0.080 V3.00 ± 0.100 V 0.20 ± 0.025 V2.70 ± 0.080 V3.00 ± 0.100 V 0.20 ± 0.025 V3.00 ± 0.080 V 3.20 ± 0.100 V 0.10 ± 0.025 V2.00 ± 0.080 V 2.70 ± 0.100 V 0.15 ± 0.025 V2.40 ± 0.080 V 2.70 ± 0.100 V 0.10 ± 0.025 V2.00 ± 0.080 V 2.70 ± 0.100 V 0.13 ± 0.025 V2.00 ± 0.080 V 2.50 ± 0.100 V 0.15 ± 0.025 V2.50 ± 0.080 V3.20 ± 0.100 V 0.30 ± 0.025 V2.75 ± 0.080 V3.05 ± 0.100 V 0.10 ± 0.025 V过放电检测电压[VDL] 过放电滞后电压[VHD] 过电流1检测电压[VIOV1] 2.30 V0 V 0.16 V2.30 V0 V 0.08 V2.50 V0.4 V0.15 V2.30 V0 V 0.08 V2.30 V0 V 0.20 V2.30 V0.1 V0.10 V2.30 V0 V 0.13 V2.50 V0.4 V0.10 V2.30 V0 V 0.10 V2.30 V0 V 0.15 V2.30 V0 V 0.08 V2.30 V0.1 V0.10 V2.30 V0.1 V0.10 V2.50 V0.4 V0.10 V2.50 V0 V 0.20 V 2.30 V0 V 0.13 V 2.30 V0 V 0.13 V2.30 V0 V 0.20 V3.00 V0 V 0.08 V 2.50 V0.4 V0.15 V 2.30 V0 V 0.05 V 2.80 V0 V 0.10 V 2.30 V0 V 0.06 V 2.80 V0.1 V0.15 V 2.50 V0.4 V0.15 V2.50 V0.5 V0.18 V3.00 V0.4 V0.08 V 2.30 V0.1 V0.10 V 2.50 V0.4 V0.15 V 2.30 V0 V 0.13 V 2.60 V0.3 V0.12 V 2.30 V0.7 V0.25 V 2.00 V0.3 V0.10 V 2.30 V0 V 0.10 V 2.10 V0 V 0.15 V 2.40 V0.5 V0.10 V2.80 V0 V 0.13 V3.00 V0.4 V0.06 V向0 V电池充电功能过充电检测延迟时间 [μF 1.0 s 可能1.0 s 可能1.0 s 禁止1.0 s 可能1.0 s 可能1.0 s 可能1.0 s 可能1.0 s 禁止1.0 s 禁止1.0 s 可能1.0 s 可能1.0 s 可能1.0 s 禁止1.0 s 可能1.0 s 禁止1.0 s 禁止1.0 s 禁止1.0 s 可能1.0 s 禁止1.0 s 可能1.0 s 禁止1.0 s 禁止1.0 s 可能1.0 s 可能1.0 s禁止1.0 s禁止1.0 s禁止1.0 s可能1.0 s可能1.0 s禁止1.0 s可能1.0 s禁止1.0 s禁止1.0 s可能1.0 s可能1.0 s可能1.0 s可能1.0 s禁止1.0 s禁止1.0 s禁止1.0 s禁止1.0 s禁止1.0 s禁止1.0 s禁止1.0 s可能1.0 s禁止向0 V电池充电功能可能可能可能可能可能可能可能可能可能可能可能可能可能可能可能可能可能可能禁止可能禁止可能可能可能可能可能可能延迟时间的组合向0 V电池的充电功能 休眠功能可能 有1可能 有1禁止 有1禁止 有1禁止 有1可能 有1禁止 有1禁止 有1可能 有1禁止 有2可能 有3可能 有4可能 有4禁止 有1可能 有 4可能 有 1可能 有 1禁止 有 5可能 有 1禁止 有 1禁止 有 5可能 有 1可能 有 1禁止 有 1禁止 有 1禁止 有 1可能 有 5可能 有 6禁止 有 6禁止 有 6禁止 无 1可能 有 7可能 有 1可能 有 8可能 有 9可能 无 1可能 有 1禁止 有。
SiC431, SiC437, SiC438 Reference Board User’s Manu
Reference Board User’s ManualHigh Voltage Synchronous Buck Regulators: 3 V to 24 VSiC431 (24 A), SiC437 (12 A), SiC438 (8 A)DESCRIPTIONThe SiC431/437/438 is family of synchronous buck regulators with integrated high side and low side power MOSFETs. Its power stage is capable of supplying up to 24 A continuous current at 1 MHz switching frequency. This regulator produces an adjustable output voltage down to 0.6 V from 3 V to 24 V input rail to accommodate a variety of applications, including computing, consumer electronics,telecom, and industrial. SiC43x series employs a constant ON time control architecture that supports ultrafast transient response with minimum output capacitance and tight ripple regulation at very light load. The device is internally compensated and no external ESR network is required for loop stability purposes. The device also incorporates a power saving scheme that significantly increases light load efficiency. The regulator integrates a full protection feature set, including output over voltage protection (OVP), cycle by cycle over current protection (OCP) short circuit protection (SCP) and thermal shutdown (OTP). It also has UVLO and a user programmable soft start. The SiC43x series is available in lead (Pb)-free power enhanced MLP44-24L package in 4 mm x 4 mm dimension.FEATURES•Versatile- Single supply operation from 3 V to 24 V input voltage -Adjustable output voltage down to 0.6 V - Scalable solution8 A (SiC438), 12 A (SiC437), 24 A (SiC431)- Output voltage tracking and sequencing with pre-bias start up- ± 1 % output voltage accuracy at -40 °C to +125 °C •Highly efficient - 97 % peak efficiency- 1 μA supply current at shutdown - 50 μA operating current not switching •Highly configurable-Four programmable switching frequencies available:300 kHz, 500 kHz, 750 kHz, and 1 MHz - Adjustable soft start and adjustable current limit - 3 modes of operation: forced continuous conduction,power save, or ultrasonic •Robust and reliable- Cycle-by-cycle current limit - Output overvoltage protection- Output undervoltage / short circuit protection with auto retry - Power good flag and over temperature protection •Design tools- Supported by Vishay PowerCAD Online Design Simulation (/power-ics/powercad-list/)- Design support kit (/ppg?74589)•Material categorization: for definitions of compliance please see /doc?99912APPLICATIONS•Industrial and automation •Home automation•Industrial and server computing•Networking, telecom, and base station power supplies •Wall transformer regulation •Robotics•High end hobby electronics: remote control cars, planes,and drones•Battery management systems •Power tools•Vending, ATM, and slot machinesORDERING TABLEPART NUMBER MODEOUTPUT CURRENTSiC431AEVB-A Ultrasonic24 A SiC431BEVB-APower safe 24 ASiC437AEVB-BUltrasonic 12 A SiC437BEVB-BPower safe12 A SiC438AEVB-B Ultrasonic 8 A SiC438BEVB-BPower safe8 ASPECIFICATIONSThis reference board allows the end user to evaluate the SiC43x series microBUCK® regulators for their features and functionalities. The user may also change the operating range may be modified by making changes to the jumper connections. See section “Selection Jumpers” below in the document.CONNECTION AND SIGNAL / TEST POINTS Power Terminals (J10)- +V IN (pin 1), V IN GND (pin 2)Connect to a voltage source to this pin. The minimum input voltage will be 3 V. For input voltages (V IN) below 4.5 V an external V DD and V DRD is required.- +V OUT (pins 5 and 6), V OUT GND (pins 3 and 4)Fig. 1 - SiC43x EVBSELECTION JUMPERSMode SelectJ1, to J8 and J15: there are 4 jumpers which allow the user to select one of four modes of operation.J1 to J4 to select switching frequency: 300 kHz to 1 MHz. Short pins 1 and 2 for PSM mode, short pins 2 and 3 for FCCM modeJ5 to J8 to select over current trip (I LIM). Short pins 1 and 3 to select 6 mS soft start, short pins 2 and 3 to select 6 mS soft startJ15 to select output voltage: 1 V, 3.3 V, 5 V and 12 V EnableJ9: this is the jumper that enables/disables the part.With J9 left open, the device is enabled, via R9 to V IN+. To disable the part, short J9.SIGNALS AND TEST LEADSInput Voltage SenseV IN_SENSE (TP11), GND IN_SENSE (TP12): this allows the user to measure the voltage directly at the input of the regulator bypassing any losses generated by connections to the board. These test points can also be as a remote sense port of a power source with remote sense capability.Output Voltage SenseV OUT_SENSE (TP13), GND OUT_SENSE (TP14): this allows the user to measure the output voltage directly at the sense point of the regulator bypassing any losses generated by connections to the board. These test points can also be as a remote sense port of an external load with remote sense capability.Power Good IndicatorPGD (J17): is an open drain output and is pulled up with a 100 kΩ resistor, R12, to V DD1 (≈ 5 V). When FB or V OUT are within -10 % to +20 % of the set voltage this pin will go HI to indicate the output is okay. To prevent false triggering during transient events, the P GOOD has a 25 μS blanking time.Power Up ProcedureBefore turning on the reference board, the user needs to select one of the three modes by shorting one jumper (see section on mode selection). It is recommend to disable theSiC431 before making any changes to the jumpers.SCHEMATIC FOR SiC431SCHEMATIC FOR SiC437, SiC438SCHEMATIC, DESIGN, BILL OF MATERIALS, AND GERBER FILES FOR PCB FABRICATIONThese files are as follows:•“*.DSN” for schematic design file•“*.DBK” for data backup file for Orcad•“.opj” Orcad project file. Any schematic work should always be opened with the opj file. Use of a DSN file for this purpose is not advised•“*.xlsx” is the bill of materials (BOM) derived from the schematic•“*.PDF” is the PDF version of the schematic from the “*.DSN” fileThe Fab files for the high power and low power are located in a separate sub directory and contain gerbers,.brd files (Allegro), etc. for PCB fabrication.PCB LAYOUT FOR SiC431Fig. 2 - Top LayerFig. 3 - Inner Layer 2Fig. 4 - Inner Layer 3Fig. 5 - Inner Layer 4 Fig. 6 - Inner Layer 5Fig. 7 - Bottom LayerPCB LAYOUT FOR SiC437, SiC438Fig. 8 - Top LayerFig. 9 - Inner Layer 2Fig. 10 - Inner Layer 3Fig. 11 - Inner Layer 4 Fig. 12 - Inner Layer 5Fig. 13 - Bottom LayerBILL OF MATERIAL REPORT, SiC431SYM_NAME COMP_VALUE REFDES PART NUMBER 04020.1 μF C1, C5, C6GRM155R71H104ME14D 121022 μF C2, C3, C4CL32B226KAJNFNE 0603 1 μF C7GCM188R71E105KA64D POSCAP100 μF C8, C920TQC100MYF0603DNP C10121022 μF C11, C12, C13, C14CL32B226KAJNFNEDNP C15, C16, C1706030.1 μF C18GCM188R71E104KA57D CAP10P2x5220 μF C20UBT1E221M SiC431SiC431IC1MINIJUMPER3CON3J1, J2, J3, J4, J5, J6, J7, J8, J9M50-3530342 CON6CON6J10277-1581-NDTP30VIN+s J1136-5000-NDTP30VIN-S J1236-5001-NDTP30VO+S J1336-5000-NDTP30VO-S J1436-5001-ND MINIJUMPER2x4CON8A J15S9015E-04-ND TP30AGND J1636-5001-NDTP30PGOOD J1736-5002-NDDNP L1IHLP 1 μH L2ZPWM-101014MA-1R0K 040251k R1, R5CRCW040251K0FKED 0402100k R2, R6, R9, R12CRCW0402100KFKED 0402200k R3, R7CRCW0402200KFKED 0402510k R4, R8CRCW0402510KFKED 04020R10CRCW04020000Z0ED 060310k R11TNPW060310K0BXEN 0603 6.65k R14TNPW06036K65BEEA 060345.3k R15TNPW060345K3BEEA 060373.2k R16TNPW060373K2BEEA 0603191k R17TNPW0603191KBEEA 1206DNP R18JUMPER OFF BOARD x3NPB02SVFN-RCBILL OF MATERIAL REPORT, SiC437, SiC438SYM_NAME COMP_VALUE REFDES PART NUMBER 04020.1 μF C1, C5, C6GRM155R71H104ME14D121022 μF C2, C3, C4CL32B226KAJNFNE0603 1 μF C7GCM188R71E105KA64DPOSCAP100 μF C8, C920TQC100MYF0603DNP C10121022 μF C13, C14CL32B226KAJNFNEDNP C11, C12, C15, C16, C1706030.1 μF C18GCM188R71E104KA57DSiC437/8SiC437/8IC1MINIJUMPER3CON3J1, J2, J3, J4, J5, J6, J7, J8,J 9M50-3530342 CON6CON6J10277-1581-NDTP30VIN+s J1136-5000-NDTP30VIN-S J1236-5001-NDTP30VO+S J1336-5000-NDTP30VO-S J1436-5001-ND MINIJUMPER2x4CON8A J15S9015E-04-ND TP30AGND J1636-5001-NDTP30PGOOD J1736-5002-NDDNP L1DNP L1IHLP 2.2 μH L2 (for SiC437x)IHLP4040DZER2R2M01IHLP 3.3 μH L2 (for SiC438x)IHLP4040DZER3R3M5A040251k R1, R5CRCW040251K0FKED0402100k R2, R6, R9, R12CRCW0402100KFKED0402200k R3, R7CRCW0402200KFKED0402510k R4, R8CRCW0402510KFKED04020R10CRCW04020000Z0ED060310k R11TNPW060310K0BXEN0603 6.65k R14TNPW06036K65BEEA060345.3k R15TNPW060345K3BEEA060373.2k R16TNPW060373K2BEEA0603191k R17TNPW0603191KBEEA1206DNP R18JUMPER OFF BOARD x3NPB02SVFN-RCVishay Siliconix maintains worldwide manufacturing capability. Products may be manufactured at one of several q ualified locations. Reliability data for Silicon Technology and Package Reliability represent a composite of all qualified locations. For related documents such as package / tape drawings, part marking, and reliability data, see /ppg?76801.。
基准电源常用芯片
基准电源常用芯片
基准电源芯片(也称作电压基准源或参考电压源)是电子电路中用于提供精确、稳定且温度系数极低的固定输出电压的集成电路。
这类芯片在许多需要高精度和长期稳定的系统中扮演着重要角色,例如仪表仪器、数据转换器(ADC/DAC)、电源管理以及各类精密模拟电路。
以下是一些常见的基准电压芯片:
1. LM236系列:
LM236D-2.5, LM236DR-2.5, LM236LP-2.5:这些是Texas Instruments(TI)生产的2.5V基准电压源芯片,具有较宽的工作电流范围(400uA~10mA)。
2. LM285系列:
LM285D-1.2, LM285D-2.5, LM285LP-2.5:这些是微功耗电压基准芯片,适用于电流需求较低的应用,工作电流范围为10uA至20mA。
3. LM336系列:
LM336BD-2.5:同样是TI的一款2.5V基准电压源,具有与LM285类似的微功耗特性,工作电流也在10uA至20mA之间。
4. 其他典型基准电压芯片:
MC1403:摩托罗拉(现NXP)生产的2.5V基准电压源。
TL431:一个精密可调基准稳压源,其输出电压可在2.5V至36V范围内调节,广泛应用于各种电源控制和保护电路中。
AZ431BN-ATRE1:可能是ADI公司的一款高精度电压基准芯片。
Silvertel Ag9724-FL V1.0 低成本全功能 PoE 模块商品说明书
Ag9724-FLV1.0 July 14Low Cost Fully Featured PoE module for the PDPower & Telecom Module SolutionsNote: The device specifications are based on preliminary data and are subject to change. Contact Silver Telecom Representative for up-to-dateinformation.∙ IEEE802.3af compliant POE ∙ Small SIL package56mm(L)x18mm(W)x14mm(H)∙ Low output ripple and noise ∙ Class Programming∙ Industrial temperature range∙ Overload, thermal and short-circuit protection∙ Wide input voltage range∙ 24V o/p version of the Ag9700-FL ∙ 1500V isolation (input to output) ∙ Integral DC/DC converter ∙Simple integrationSilvertel’s Ag9724-FL is a fully featured PoE PD module designed as a high performance low cost alternative to the Ag9424-2BR. The module conforms to the IEEE802.3af Power-over-Ethernet standard, extracting power from a twisted pair Cat 5 Ethernet cable. This complete solution provides 1.5kV isolation, PoE signature, integral DC/DC converter and allows the power classification to be set. Ag9724-FL provides a complete solution using just one extra low cost component.Ag9724-FL will accept power from either the spare or data pair of the Ethernet cable, enabling the device to be powered from mid- or end-span PSEs.The integrated optimised DC/DC converter operates over a wide input voltage range providing a high efficiency, regulated, very low ripple output. In addition: overload, over temperature and short-circuit protection is included. This 24V output module is an addition to the existing Ag9700-FL series 3.3V, 5V and 12V versions. The module output is easily adjusted using a simple pull up/down resistor.The Ag9724-FL also includes on-board diode bridges and POE signature circuitry for full IEEE PoE compatibility. This signature is required by the Power Sourcing Equipment (PSE) before it will provide power to the port. The module will operate over the industrial temperature range with an ambient of -40︒C to +85︒C.Ag9724-FL is ideal as a cost effective solution for POE applications e.g. Access control, home automation products and WAPs.。
isl9238 原理
isl9238 原理isl9238是一款用于电池充电管理的集成电路,具有广泛的应用领域。
本文将介绍isl9238的原理及其在电池管理中的重要性。
isl9238是一种高度集成的电池充电管理芯片,主要用于智能手机、平板电脑、笔记本电脑等便携式设备中。
它通过监测电池电压和电流来实现对电池的精确充电和保护。
其核心功能包括电池充电控制、电池保护、温度监测等。
isl9238具有多种充电模式,如恒流充电、恒压充电和维护充电等。
在恒流充电阶段,isl9238会通过控制充电电流来实现对电池的快速充电。
而在恒压充电阶段,isl9238会保持充电电压不变,直到电池电压达到设定值。
此外,isl9238还能够在充电过程中实时监测电池温度,以避免过热情况的发生。
除了充电控制外,isl9238还具备对电池的保护功能。
它能够监测电池的电流、电压和温度,并根据设定的保护参数来实时调整充电状态。
当电池电流、电压或温度超过预设阈值时,isl9238会自动停止充电,以避免电池过载、过充或过热而造成的安全隐患。
isl9238还具备一些额外的特性,如电池容量估算、电池状态显示和USB供电支持等。
通过电池容量估算功能,isl9238能够根据电池电流和电压的变化来估计电池的剩余电量,提供给用户参考。
而电池状态显示功能则可以在充电过程中实时显示电池的充电状态,方便用户了解电池的使用情况。
此外,isl9238还支持通过USB接口直接供电,使得设备能够在没有电池的情况下正常工作。
isl9238作为一款先进的电池充电管理芯片,在便携式设备中发挥着重要的作用。
它通过精确的充电控制和保护功能,保证了电池的安全性和稳定性,延长了电池的使用寿命。
同时,isl9238还具备一些额外的特性,提供了更便捷的电池管理功能。
因此,isl9238在电池充电管理领域具有广阔的应用前景,将进一步推动便携式设备的发展。
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NI ELVIS II系列产品规格说明说明书
Arbitrary Waveform Generator/Analog Output
Number of channels.........................2
DAC resolution................................16 bits
DNL.................................................±1 LSB
Maximum working voltage for analog inputs (signal + common mode) ................ ±11 V of AIGND
CMRR (DC to 60 Hz) ..................... 90 dB
Source..............................................AI<0..15>, ScopeCH0, ScopeCH1
Small signal bandwidth (–3 dB)......1.2 MHz
Input FIFO size................................4095 samples
Scanlist memory ..............................4095 entries
Data B signal stream, programmed I/O
笔记本芯片型号归类
电源IC:①主电源IC:MAX1631、MAX1632、MAX1999、MAX8734、LTC3728②分组供电源IC:MAX1845、MAX1715、SC1486、SC1485③CPU核心供电电源IC:MAX1718、MAX1987MAX8770、MAX8771、ADP3205+3415④电池充电电源IC:ADP3806、MAX1645、MAX8724、MAX16472、电源管理IC:PMH4H83、网卡芯片:intel、RTL、BROADCOM、3com、LSI网络变压器:MIDCOM7219-35IP地址默认器:93C464、PC卡芯片:PCIBUS、MICRO、RICOH、ene、SN、TOSHIAB(只在东芝板上才有)PC卡槽电源控制IC〔PC卡供电芯片〕:TPS2206、TPS2216、TPS2214、MIC2562、MIC2563、PU22115、声卡:AD、ALC、AC97、ESS功放:BA、AN、APA、TPA、MAX6、Super I/O〔超级I/O〕:PC87392、PC97338、PC87394、LPC47N227串口芯片:MAX3243、MA32437、触摸板信号接收IC:P15C、3257Q8、缓冲芯片:P15C、16862CB9、VGA行场转换IC10、时钟IC:ICS、CY、IMI11、BIOS:SST、MX、Intel、AMD、ATM、Winbond12、系统管理总线开关IC:LC25313、密码芯片〔码片〕:24RF08、24C××、93C××14、平安芯片:ATMEL、AT97SC320115、温控IC:MAX198916、视屏解码芯片:CH7011、SIS302LV、Intel82807〔集显才有〕〔出现视屏解码芯片,对应的是14.318MHZ晶振〕17、VGA接口芯片:CMD18、IDE转换I C:88SA8040〔和网卡芯片相似,注意区分〕19、USB接口芯片:NEC、D7202120、USB口电源控制IC〔USB供电〕:MAX890、MAX893、MAX8220、MAX202121、1394接口芯片:TSB41、TSB43、VT6306、VT6307〔可能集成在PC芯片里,PC卡本身不需晶振,如PC旁有晶振,那么晶振是为内部集成的1394工作〕电源IC:MAX1631、MAX1632、MAX1634、MAX1901、MAX1902、MAX1904、MAX1999、MAX8734、SC1403、SC1404、SB3052、SB3053、ISL6235、LTC1628、LTC3728、PS51020、PS5120、PS51120〔MAX782、785、786在P2里〕CPU核心供电电路:1、电源IC:MAX1711、MAX1712、MAX1717、MAX1718、MAX1907、MAX1987、MAX8770、MAX8771、ISL6223、ISL6262、ISL6220、SC1474、SC1476、SC451、ADP3410、ADP3203、ADP3205+3415、ADP3207 I/O〔EC〕芯片:管理触发和内置键盘、鼠标PC97551、PC87570、PC87541、PC87551、PC87591、M38857、M38867、H8/XXX(X表示数字)、SMSC、KBC1122、KBC1070、KB9251926、KB3910、KB3920、LPC47N250、LPC47N350、Winbond、W83L950D、ITE 8510、8512(内置USB,接蓝牙) I/O和Super I/O集成:LPC47N254、LPC47N354、FDC37N972、LPC47N252Super I/O:LPC47N217、LPC47N227、LPC47N207、W83L517DW83L518D、PC87391、PC87392、PC97338、PC87393、PC87394(南桥是Ali1535+,那么Super I/O集成在南桥里)、充电电源IC:ADP3806、MAX1772、MAX8724、MAX8725、MA745、MAX1647、MAX1648、TL594、bq24721、Bq24103、MAX1908常用温控IC:LM75、MAX1617、MAX1609、MAX1989、MAX1618、MAX6657、MAX6659驱动板的了解1、品牌:乐华、鼎科、凯旋2、型号:板型号/主芯片型号乐华:2025、2023、2021〔主芯片型号〕鼎科:2621〔万能驱动板,可点60%〕3、品牌机:①电源板高压板做在一起,通过几根线与驱动板相连②高压板和驱动板独立,外加适配器 4、驱动板的结构:1、跳线①2、按键板接口3、跳线②4、屏线接口5、主芯片6、VGA 线接口7、高压板线接口8、升级头接口9、DC 头接口1、跳线①:屏供电跳线,3.3V 或5V 切换,17寸以上,跳为5V ,2、按键板接口:按键板:驱动板:改按键板:根据外壳上的定义将按键板上的按键对应连接到驱动主IC 1 4 5 7 8 9 6 3 2 ON/OFF AUTO menu +- 菜单 RGNC AUTO + G ON/OFFmenu - GND R板上3、跳线②,点屏方案: 1-2 3-4 5-6 7-8 800×600 1LVDS 6bit × √ √ × 1024×768 1LVDS 6bit × × √ × 1024×768 1LVDS 8bit × √ × × 1024×768 2LVDS 6bit √ √ √ ×4、屏线接口:LVDS ,30脚〔注意插线要插对,板上第1脚会有△标识〕屏线:①LVDS :a.14脚→DF14、DF19 →F1X②TTL 〔41pin 〕 改屏线:①找出屏上的供电②找出地线③连接色差信号线、时钟线5、主芯片6、VGA 线接口7、高压板线接口〔改高压板,将供电和地线连好后,试出控制线,亮度线不接。
凌特公司基准芯片参数
凌特公司基准芯片参数表基准输出形式初始精度温飘最低压差静态电流或最低旁路电流温度分档封装单位V % ppm/°C V uALT6650CS50.4 串联0.75 30 .1 11uA 0°C ~ 70°C SOT-23LT6650HS50.4 串联 1.5 30 .1 11uA -40°C ~ 125°C SOT-23LT6650IS50.4 串联 1 30 .1 11uA -40°C ~ 85°C SOT-23LTC1440 1.182 并联 1 55.5 并联 2 0°C ~ 70°C, -40°C ~ 85°C MS-8, SO-8, DIP-8, DFN-8LTC1442 1.182 并联 1 55.5 并联 3.5 0°C ~ 70°C, -40°C ~ 85°C SO-8, DIP-8LTC1443 1.182 并联 1 44.4 并联 5.5 0°C ~ 70°C, -40°C ~ 85°C DIP-16, SO-16, DFN-16LTC1540 1.182 并联 2.2 62.5 并联0.3 MS-8, SO-8, DFN-8LTC1842 1.182 并联 1 55.5 并联 3.5 0°C ~ 70°C, -40°C ~ 85°C SO-8LTC1843 1.182 并联 1 55.5 并联 3.5 0°C ~ 70°C, -40°C ~ 85°C SO-8LTC1541 1.2 并联 1.25 62.5 并联 5 0°C ~ 70°C, -40°C ~ 85°C MS-8, SO-8, DFN-8LTC1998 1.2 并联0.6 71 并联 3.5 0°C ~ 70°C, -40°C ~ 85°C SOT-23LTC1444 1.221 并联 1 44.4 并联 5.5 0°C ~ 70°C, -40°C ~ 85°C DIP-16, SO-16LTC1445 1.221 并联 1 44.4 并联 5.5 0°C ~ 70°C, -40°C ~ 85°C DIP-16, SO-16, DFN-16LT1034BCZ-1.2 1.225 并联 1.2 20 并联10 0°C ~ 70°C TO-92LT1034BIZ-1.2 1.225 并联 1.2 20 并联10 -40°C ~ 85°C TO-92LT1034CS8-1.2 1.225 并联 1.2 40 并联10 0°C ~ 70°C SO-8LT1034CZ-1.2 1.225 并联 1.2 40 并联10 0°C ~ 70°C TO-92LT1034IS8-1.2 1.225 并联 1.2 40 并联10 -40°C ~ 85°C SO-8LT1034IZ-1.2 1.225 并联 1.2 40 并联10 -40°C ~ 85°C TO-921LT1004IS8-1.2 1.235 并联0.8 20 并联8 -40°C ~ 85°C SO-8LT1004IZ-1.2 1.235 并联0.3 20 并联8 -40°C ~ 85°C TO-92LT1389ACS8-1.25 1.25 并联0.05 10 并联0.6 0°C ~ 70°C SO-8LT1389BCS8-1.25 1.25 并联0.05 20 并联0.6 0°C ~ 70°C SO-8LT1634ACS8-1.25 1.25 并联0.05 10 并联7 0°C ~ 70°C SO-8LT1634AIS8-1.25 1.25 并联0.05 10 并联7 -40°C ~ 85°C SO-8LT1634BCMS8-1.25 1.25 并联0.05 25 并联7 0°C ~ 70°C MS-8LT1634BCS8-1.25 1.25 并联0.05 25 并联7 0°C ~ 70°C SO-8LT1634BIS8-1.25 1.25 并联0.05 25 并联7 -40°C ~ 85°C SO-8LT1634CCZ-1.25 1.25 并联0.2 25 并联7 0°C ~ 70°C TO-92LT1790ACS6-1.25 1.25 串联0.05 10 .1 35 0°C ~ 70°C SOT-23LT1790AIS6-1.25 1.25 串联0.05 10 .1 35 -40°C ~ 85°C SOT-23LT1790BCS6-1.25 1.25 串联0.1 25 .1 35 0°C ~ 70°C SOT-23LT1790BIS6-1.25 1.25 串联0.1 25 .1 35 -40°C ~ 85°C SOT-23LTC6652AHMS8-1.25 1.25 串联0.05 5 .3 350 -40°C ~ 125°C MS-8LTC6652BHMS8-1.25 1.25 串联0.1 10 .3 350 -40°C ~ 125°C MS-8LTC6655BHMS8-1.25 1.25 串联0.025 2 .5 5000 -40°C ~ 125°C MS-8LTC6655CHMS8-1.25 1.25 串联0.05 5 .5 5000 -40°C ~ 125°C MS-8LT1790ACS6-2.048 2.048 串联0.05 10 .1 35 0°C ~ 70°C SOT-23LT1790AIS6-2.048 2.048 串联0.05 10 .1 35 -40°C ~ 85°C SOT-23LT1790BCS6-2.048 2.048 串联0.1 25 .1 35 0°C ~ 70°C SOT-23LT1790BIS6-2.048 2.048 串联0.1 25 .1 35 -40°C ~ 85°C SOT-23LTC6652AHMS8-2.0482.048 串联0.05 5 .3 350 -40°C ~ 125°C MS-8LTC6652BHMS8-2.0482.048 串联0.1 10 .3 350 -40°C ~ 125°C MS-8LTC6655BHMS8-2.0482.048 串联0.025 2 .5 5000 -40°C ~ 125°C MS-8LTC6655CHMS8-2.0482.048 串联0.05 5 .5 5000 -40°C ~ 125°C MS-8LT1004CS8-2.5 2.5 并联0.8 20 并联12 0°C ~ 70°C SO-82LT1004IZ-2.5 2.5 并联0.8 20 并联12 -40°C ~ 85°C TO-92LT1009CMS8 2.5 并联0.2 25 并联400 0°C ~ 70°C MS-8LT1009CZ 2.5 并联0.2 25 并联400 0°C ~ 70°C TO-92LT1009IS8 2.5 并联0.4 35 并联400 -40°C ~ 85°C SO-8LT1009IZ 2.5 并联0.2 35 并联400 -40°C ~ 85°C TO-92LT1009S8 2.5 并联0.4 25 并联400 0°C ~ 70°C SO-8LT1019ACN8-2.5 2.5 串联0.05 5 1.1 650 0°C ~ 70°C DIP-8LT1019ACS8-2.5 2.5 串联0.05 5 1.1 650 0°C ~ 70°C SO-8LT1019AIS8-2.5 2.5 串联0.05 10 1.1 650 -40°C ~ 85°C SO-8LT1019CN8-2.5 2.5 串联0.2 20 1.1 650 0°C ~ 70°C DIP-8LT1019CS8-2.5 2.5 串联0.2 20 1.1 650 0°C ~70°C SO-8LT1019IN8-2.5 2.5 串联0.2 20 1.1 650 -40°C ~ 85°C DIP-8LT1019IS8-2.5 2.5 串联0.2 20 1.1 650 -40°C ~ 85°C SO-8LT1034BCZ-2.5 2.5 并联 1.6 20 并联15 0°C ~ 70°C TO-92LT1034BIZ-2.5 2.5 并联 1.6 20 并联15 -40°C ~ 85°C TO-92LT1034CS8-2.5 2.5 并联 1.6 40 并联15 0°C ~ 70°C SO-8LT1034CZ-2.5 2.5 并联 1.6 40 并联15 0°C ~ 70°C TO-92LT1034IS8-2.5 2.5 并联 1.6 40 并联15 -40°C ~ 85°C SO-8LT1034IZ-2.5 2.5 并联 1.6 40 并联15 -40°C ~ 85°C TO-92LT1389BCS8-2.5 2.5 并联0.05 20 并联0.6 0°C ~ 70°C SO-8LT1460ACN8-2.5 2.5 串联0.075 10 .9 100 0°C ~ 70°C DIP-8LT1460ACS8-2.5 2.5 串联0.075 10 .9 100 0°C ~ 70°C SO-8LT1460BIN8-2.5 2.5 串联0.1 10 .9 100 -40°C ~ 85°C DIP-8LT1460BIS8-2.5 2.5 串联0.1 10 .9 100 -40°C ~ 85°C SO-8LT1460CCMS8-2.5 2.5 串联0.1 15 .9 100 0°C ~ 70°C MS-8LT1460DCN8-2.5 2.5 串联0.1 20 .9 100 0°C ~ 70°C DIP-8LT1460DCS8-2.5 2.5 串联0.1 20 .9 100 0°C ~ 70°C SO-83LT1460EIN8-2.5 2.5 串联0.125 20 .9 100 -40°C ~ 85°C DIP-8LT1460EIS8-2.5 2.5 串联0.125 20 .9 100 -40°C ~ 85°C SO-8LT1460FCMS8-2.5 2.5 串联0.15 25 .9 100 0°C ~ 70°C MS-8LT1460GCZ-2.5 2.5 串联0.25 25 .9 100 0°C ~ 70°C TO-92LT1460GIZ-2.5 2.5 串联0.25 25 .9 100 -40°C ~ 85°C TO-92LT1460HCS3-2.5 2.5 串联0.5 20 .9 100 0°C ~ 70°C SOT-23LT1460JCS3-2.5 2.5 串联0.4 20 .9 100 0°C ~ 70°C SOT-23LT1460KCS3-2.5 2.5 串联0.5 50 .9 100 0°C ~ 70°C SOT-23LT1460LHS8-2.5 2.5 串联0.2 25 .9 100 -40°C ~ 125°C SO-8LT1460MHS8-2.5 2.5 串联0.2 50 .9 100 -40°C ~ 125°C SO-8LT1461ACS8-2.5 2.5 串联0.04 3 .3 35 0°C ~ 70°C SO-8LT1461AIS8-2.5 2.5 串联0.04 3 .3 35 -40°C ~ 85°C SO-8LT1461BCS8-2.5 2.5 串联0.06 7 .3 35 0°C ~ 70°C SO-8LT1461BIS8-2.5 2.5 串联0.06 7 .3 35 -40°C ~ 85°C SO-8LT1461CCS8-2.5 2.5 串联0.1 12 .3 35 0°C ~ 70°C SO-8LT1461CIS8-2.5 2.5 串联0.1 12 .3 35 -40°C ~ 85°C SO-8LT1461DHS8-2.5 2.5 串联0.15 20 .3 35 -40°C ~ 125°C SO-8LT1634ACS8-2.5 2.5 并联0.05 10 并联7 0°C ~ 70°C SO-8LT1634AIS8-2.5 2.5 并联0.05 25 并联7 -40°C ~ 85°C SO-8LT1634BCMS8-2.5 2.5 并联0.05 25 并联7 0°C ~ 70°C MS-8LT1634BCS8-2.5 2.5 并联0.05 25 并联7 0°C ~ 70°C SO-8LT1634BIS8-2.5 2.5 并联0.05 25 并联7 -40°C ~ 85°C SO-8LT1634CCZ-2.5 2.5 并联0.2 25 并联7 0°C ~ 70°C TO-92LT1790ACS6-2.5 2.5 串联0.05 10 .1 35 0°C ~ 70°C SOT-23LT1790AIS6-2.5 2.5 串联0.05 10 .1 35 -40°C ~ 85°C SOT-23LT1790BCS6-2.5 2.5 串联0.1 25 .1 35 0°C ~ 70°C SOT-23LT1790BIS6-2.5 2.5 串联0.1 25 .1 35 -40°C ~ 85°C SOT-23LT6654AHS6-2.5 2.5 串联0.05 3 .055 350 -40°C ~ 85°C SOT-23LT6654AMPS6-2.5 2.5 串联0.05 3 .055 350 -55°C ~ 125°C SOT-234LT6654BHS6-2.5 2.5 串联0.1 6 .055 350 -55°C ~ 125°C SOT-23LT6654BMPS6-2.5 2.5 串联0.1 6 .055 350 -40°C ~ 85°C SOT-23LT6656ACS6-2.5 2.5 串联0.05 10 .5 0.85 0°C ~ 70°C SOT-23LT6656AIS6-2.5 2.5 串联0.05 10 .5 0.85 -40°C ~ 85°C SOT-23LT6656BCS6-2.5 2.5 串联0.1 20 .5 0.85 0°C ~ 70°C SOT-23LT6656BIS6-2.5 2.5 串联0.1 20 .5 0.85 -40°C ~ 85°C SOT-23LT6660HCDC-2.5 2.5 串联0.2 20 .9 115 0°C ~ 70°C DFN-3LT6660JCDC-2.5 2.5 串联0.4 20 .9 115 0°C ~ 70°C DFN-3LT6660KCDC-2.5 2.5 串联0.5 50 .9 115 0°C ~ 70°C DFN-3LTC1258CMS8-2.5 2.5 串联0.21 60 .1 4 0°C ~ 70°C MS-8LTC1258CS8-2.5 2.5 串联0.15 40 .1 4 0°C ~ 70°C SO-8LTC1798CS8-2.5 2.5 串联0.15 15 .1 4 0°C ~ 70°C SO-8LTC6652AHMS8-2.5 2.5 串联0.05 5 .3 350 -40°C ~ 125°C MS-8LTC6652BHMS8-2.5 2.5 串联0.1 10 .3 350 -40°C ~ 125°C MS-8LTC6655BHMS8-2.5 2.5 串联0.025 2 .5 5000 -40°C ~ 125°C MS-8LTC6655CHMS8-2.5 2.5 串联0.05 5 .5 5000 -40°C ~ 125°C MS-8LT1460HCS3-3 3 串联0.2 20 .9 145 0°C ~ 70°C SOT-23LT1460JCS3-3 3 串联0.4 20 .9 145 0°C ~ 70°C SOT-23LT1460KCS3-3 3 串联0.5 50 .9 145 0°C ~ 70°C SOT-23LT1461ACS8-3 3 串联0.04 3 .3 35 0°C ~ 70°C SO-8LT1461AIS8-3 3 串联0.04 3 .3 35 -40°C ~ 85°C SO-8LT1461BCS8-3 3 串联0.1 10 .3 35 0°C ~ 70°C SO-8LT1461BIS8-3 3 串联0.06 7 .3 35 -40°C ~ 85°C SO-8LT1461CCS8-3 3 串联0.1 12 .3 35 0°C ~ 70°C SO-8LT1461CIS8-3 3 串联0.1 12 .3 35 -40°C ~ 85°C SO-8LT1461DHS8-3 3 串联0.2 20 .3 35 -40°C ~ 125°C SO-8LT1790ACS6-3 3 串联0.05 10 .1 35 0°C ~ 70°C SOT-23LT1790AIS6-3 3 串联0.05 10 .1 35 -40°C ~ 85°C SOT-23LT1790BCS6-3 3 串联0.1 25 .1 35 0°C ~ 70°C SOT-235LT1790BIS6-3 3 串联0.1 25 .1 35 -40°C ~ 85°C SOT-23LT6660HCDC-3 3 串联0.2 20 .9 145 0°C ~ 70°C DFN-3LT6660JCDC-3 3 串联0.4 20 .9 145 0°C ~ 70°C DFN-3LT6660KCDC-3 3 串联0.5 50 .9 145 0°C ~ 70°C DFN-3LTC1258CMS8-3 3 串联0.15 60 .1 4 0°C ~ 70°C MS-8LTC1258CS8-3 3 串联0.15 40 .1 4 0°C ~ 70°C SO-8LTC1798CS8-3 3 串联0.15 15 .1 4 0°C ~ 70°C SO-8LTC6652AHMS8-3 3 串联0.05 5 .3 350 -40°C ~ 125°C MS-8LTC6652BHMS8-3 3 串联0.1 10 .3 350 -40°C ~ 125°C MS-8LTC6655BHMS8-3 3 串联0.025 2 .5 5000 -40°C ~ 125°C MS-8LTC6655CHMS8-3 3 串联0.05 5 .5 5000 -40°C ~ 125°C MS-8LT1460HCS3-3.3 3.3 串联0.2 20 .9 145 0°C ~ 70°C SOT-23LT1460JCS3-3.3 3.3 串联0.4 20 .9 145 0°C ~ 70°C SOT-23LT1460KCS3-3.3 3.3 串联0.5 50 .9 145 0°C ~ 70°C SOT-23LT1461ACS8-3.3 3.3 串联0.04 3 .3 35 0°C ~ 70°C SO-8LT1461AIS8-3.3 3.3 串联0.04 3 .3 35 -40°C ~ 85°C SO-8LT1461BCS8-3.3 3.3 串联0.1 10 .3 35 0°C ~ 70°C SO-8LT1461BIS8-3.3 3.3 串联0.1 10 .3 35 -40°C ~ 85°C SO-8LT1461CCS8-3.3 3.3 串联0.1 12 .3 35 0°C ~ 70°C SO-8LT1461CIS8-3.3 3.3 串联0.1 12 .3 35 -40°C ~ 85°C SO-8LT1461DHS8-3.3 3.3 串联0.2 20 .3 35 -40°C ~ 125°C SO-8LT1790ACS6-3.3 3.3 串联0.05 10 .1 35 0°C ~ 70°C SOT-23LT1790AIS6-3.3 3.3 串联0.05 10 .1 35 -40°C ~ 85°C SOT-23LT1790BCS6-3.3 3.3 串联0.1 25 .1 35 0°C ~ 70°C SOT-23LT1790BIS6-3.3 3.3 串联0.1 25 .1 35 -40°C ~ 85°C SOT-23LT6660HCDC-3.3 3.3 串联0.2 20 .9 145 0°C ~ 70°C DFN-3LT6660JCDC-3.3 3.3 串联0.4 20 .9 145 0°C ~ 70°C DFN-3LT6660KCDC-3.3 3.3 串联0.5 50 .9 145 0°C ~ 70°C DFN-3LTC6652AHMS8-3.3 3.3 串联0.05 5 .3 350 -40°C ~ 125°C MS-86LTC6655BHMS8-3.3 3.3 串联0.025 2 .5 5000 -40°C ~ 125°C MS-8LTC6655CHMS8-3.3 3.3 串联0.05 5 .5 5000 -40°C ~ 125°C MS-8LT1389BCS8-4.096 4.096 并联0.075 50 并联0.6 0°C ~ 70°C SO-8LT1461ACS8-4 4.096 串联0.04 3 .3 35 0°C ~ 70°C SO-8LT1461AIS8-4 4.096 串联0.04 3 .3 35 -40°C ~ 85°C SO-8LT1461BCS8-4 4.096 串联0.06 7 .3 35 0°C ~ 70°C SO-8LT1461BIS8-4 4.096 串联0.1 10 .3 35 -40°C ~ 85°C SO-8LT1461CCS8-4 4.096 串联0.1 12 .3 35 0°C ~ 70°C SO-8LT1461CIS8-4 4.096 串联0.1 12 .3 35 -40°C ~ 85°C SO-8LT1461DHS8-4 4.096 串联0.2 20 .3 35 -40°C ~ 125°C SO-8LT1634ACS8-4.096 4.096 并联0.05 10 并联7 0°C ~ 70°C SO-8LT1634AIS8-4.096 4.096 并联0.05 10 并联7 -40°C ~ 85°C SO-8LT1634BCS8-4.096 4.096 并联0.05 25 并联7 0°C ~ 70°C SO-8LT1634BIS8-4.096 4.096 并联0.05 25 并联7 -40°C ~ 85°C SO-8LT1634CCZ-4.096 4.096 并联0.2 25 并联7 0°C ~ 70°C TO-92LT1790ACS6-4.096 4.096 串联0.05 10 .1 35 0°C ~ 70°C SOT-23LT1790AIS6-4.096 4.096 串联0.05 10 .1 35 -40°C ~ 85°C SOT-23LT1790BCS6-4.096 4.096 串联0.1 25 .1 35 0°C ~ 70°C SOT-23LT1790BIS6-4.096 4.096 串联0.1 25 .1 35 -40°C ~ 85°C SOT-23LTC1258CMS8-4.1 4.096 串联0.15 40 .1 4 0°C ~ 70°C MS-8LTC1258CS8-4.1 4.096 串联0.15 40 .1 4 0°C ~ 70°C SO-8LTC1798CS8-4.1 4.096 串联0.15 15 .1 4 0°C ~ 70°C SO-8LTC6652AHMS8-4.0964.096 串联0.05 5 .3 350 -40°C ~ 125°C MS-8LTC6652BHMS8-4.0964.096 串联0.1 10 .3 350 -40°C ~ 125°C MS-8LTC6655BHMS8-4.0964.096 串联0.025 2 .5 5000 -40°C ~ 125°C MS-8LTC6655CHMS8-4.0964.096 串联0.05 5 .5 5000 -40°C ~ 125°C MS-8LT1019ACN8-4.5 4.5 串联0.05 5 1.1 650 0°C ~ 70°C DIP-8LT1019CN8-4.5 4.5 串联0.2 20 1.1 650 0°C ~ 70°C DIP-87LT1019IN8-4.5 4.5 串联0.2 5 1.1 650 -40°C ~ 85°C DIP-8LT1019ACN8-5 5 串联0.05 5 1.1 650 0°C ~ 70°C DIP-8LT1019ACS8-5 5 串联0.05 3 1.1 650 0°C ~ 70°C SO-8LT1019AIS8-5 5 串联0.05 3 1.1 650 -40°C ~ 85°C SO-8LT1019CN8-5 5 串联0.2 5 1.1 650 0°C ~ 70°C DIP-8LT1019CS8-5 5 串联0.2 20 1.1 650 0°C ~ 70°C SO-8LT1019IN8-5 5 串联0.2 5 1.1 650 -40°C ~ 85°C DIP-8LT1019IS8-5 5 串联0.2 20 1.1 650 -40°C ~ 85°C SO-8LT1021BCH-5 5 串联 1 5 2.2 800 0°C ~ 70°C to-5LT1021BCN8-5 5 串联 1 5 2.2 800 0°C ~ 70°C DIP-8LT1021BMH-5 5 串联 1 5 2.2 800 -55°C ~ 125°C TO-5LT1021CCH-5 5 串联0.05 20 2.2 800 0°C ~ 70°C TO-5LT1021CCN8-5 5 串联0.05 20 2.2 800 0°C ~ 70°C DIP-8LT1021CIN8-5 5 串联0.05 20 2.2 800 -40°C ~ 85°C DIP-8LT1021CMH-5 5 串联0.05 20 2.2 800 -55°C ~ 125°C TO-5LT1021DCN8-5 5 串联 1 20 2.2 800 0°C ~ 70°C DIP-8LT1021DCS8-5 5 串联 1 20 2.2 800 0°C ~ 70°C SO-8LT1021DIN8-5 5 串联 1 20 2.2 800 -40°C ~ 85°C DIP-8LT1027BCN8-5 5 串联0.05 1 3 2200 0°C ~ 70°C DIP-8LT1027CCN8-5 5 串联0.05 2 3 2200 0°C ~ 70°C DIP-8LT1027CCS8-5 5 串联0.05 2 3 2200 0°C ~ 70°C SO-8LT1027DCN8-5 5 串联0.05 2 3 2200 0°C ~ 70°C DIP-8LT1027DCS8-5 5 串联0.05 2 3 2200 0°C ~ 70°C SO-8LT1027ECN8-5 5 串联0.1 3 3 2200 0°C ~ 70°C DIP-8LT1027ECS8-5 5 串联0.1 3 3 2200 0°C ~ 70°C SO-8LT1029ACZ 5 并联0.2 20 并联700 0°C ~ 70°C TO-92LT1029CZ 5 并联 1 34 并联700 0°C ~ 70°C TO-92LT1236ACN8-5 5 串联0.05 2 1 800 0°C ~ 70°C DIP-88LT1236BCN8-5 5 串联0.1 5 1 800 0°C ~ 70°C DIP-8LT1236BCS8-5 5 串联0.1 5 1 800 0°C ~ 70°C SO-8LT1236BIN8-5 5 串联0.1 15 1 800 -40°C ~ 85°C DIP-8LT1236BIS8-5 5 串联0.1 5 1 800 -40°C ~ 85°C SO-8LT1236CCN8-5 5 串联0.1 10 1 800 0°C ~ 70°C DIP-8LT1236CCS8-5 5 串联0.1 10 1 800 0°C ~ 70°C SO-8LT1236CIN8-5 5 串联0.1 10 1 800 -40°C ~ 85°C DIP-8LT1236CIS8-5 5 串联0.1 10 1 800 -40°C ~ 85°C SO-8LT1389BCS8-5 5 并联0.075 50 并联0.6 0°C ~ 70°C SO-8LT1460ACN8-5 5 串联0.075 5 .9 125 0°C ~ 70°C DIP-8LT1460ACS8-5 5 串联0.075 10 .9 125 0°C ~ 70°C SO-8LT1460BIN8-5 5 串联0.1 5 .9 125 -40°C ~ 85°C DIP-8LT1460BIS8-5 5 串联0.1 10 .9 125 -40°C ~ 85°C SO-8LT1460CCMS8-5 5 串联0.1 15 .9 125 0°C ~ 70°C MS-8LT1460DCN8-5 5 串联0.125 10 .9 125 0°C ~ 70°C DIP-8LT1460DCS8-5 5 串联0.125 10 .9 125 0°C ~ 70°C SO-8LT1460EIN8-5 5 串联0.125 10 .9 125 -40°C ~ 85°C DIP-8LT1460EIS8-5 5 串联0.125 20 .9 125 -40°C ~ 85°C SO-8LT1460FCMS8-5 5 串联0.15 25 .9 125 0°C ~ 70°C MS-8LT1460GCZ-5 5 串联0.25 25 .9 125 0°C ~ 70°C TO-92LT1460GIZ-5 5 串联0.25 25 .9 125 -40°C ~ 85°C TO-92LT1460HCS3-5 5 串联0.2 20 .9 125 0°C ~ 70°C SOT-23LT1460JCS3-5 5 串联0.4 20 .9 125 0°C ~ 70°C SOT-23LT1460KCS3-5 5 串联0.5 50 .9 125 0°C ~ 70°C SOT-23LT1460LHS8-5 5 串联0.2 20 .9 125 -40°C ~ 125°C SO-8LT1460MHS8-5 5 串联0.2 50 .9 125 -40°C ~ 125°C SO-8LT1461ACS8-5 5 串联0.04 3 .3 35 0°C ~ 70°C SO-89LT1461BIS8-5 5 串联0.06 7 .3 35 -40°C ~ 85°C SO-8LT1461CCS8-5 5 串联0.1 12 .3 35 0°C ~ 70°C SO-8LT1461CIS8-5 5 串联0.1 12 .3 35 -40°C ~ 85°C SO-8LT1461DHS8-5 5 串联0.2 20 .3 35 -40°C ~ 125°C SO-8LT1634ACS8-5 5 并联0.05 10 并联7 0°C ~ 70°C SO-8LT1634AIS8-5 5 并联0.05 10 并联7 -40°C ~ 85°C SO-8LT1634BCS8-5 5 并联0.05 25 并联7 0°C ~ 70°C SO-8LT1634BIS8-5 5 并联0.05 25 并联7 -40°C ~ 85°C SO-8LT1634CCZ-5 5 并联0.2 25 并联7 0°C ~ 70°C TO-92LT1790ACS6-5 5 串联0.05 10 .1 35 0°C ~ 70°C SOT-23LT1790AIS6-5 5 串联0.05 10 .1 35 -40°C ~ 85°C SOT-23LT1790BCS6-5 5 串联0.1 25 .1 35 0°C ~ 70°C SOT-23LT1790BIS6-5 5 串联0.1 25 .1 35 -40°C ~ 85°C SOT-23LT6660HCDC-5 5 串联0.2 20 .9 160 0°C ~ 70°C DFN-3LT6660JCDC-5 5 串联0.4 20 .9 160 0°C ~ 70°C DFN-3LT6660KCDC-5 5 串联0.5 50 .9 160 0°C ~ 70°C DFN-3LTC1258CMS8-5 5 串联0.18 60 .1 4 0°C ~ 70°C MS-8LTC1258CS8-5 5 串联0.15 40 .1 4 0°C ~ 70°C SO-8LTC1798CS8-5 5 串联0.15 15 .1 4 0°C ~ 70°C SO-8LTC6652AHMS8-5 5 串联0.05 5 .3 350 -40°C ~ 125°C MS-8LTC6652BHMS8-5 5 串联0.1 10 .3 350 -40°C ~ 125°C MS-8LTC6655BHMS8-5 5 串联0.025 2 .5 5000 -40°C ~ 125°C MS-8LTC6655CHMS8-5 5 串联0.05 5 .5 5000 -40°C ~ 125°C MS-8LT1021BCN8-77 串联0.71 5 1.5 800 0°C ~ 70°C DIP-8LT1021DCN8-77 串联0.71 20 1.5 800 0°C ~ 70°C DIP-8LT1021DCS8-77 串联0.71 20 1.5 800 0°C ~ 70°C SO-8LTZ1000ACH/CH7.2 Super Zener 4 0.05 N/A 250 -55°C ~ 125°C to-510LT1019CS8-1010 串联0.2 5 1.1 650 0°C ~ 70°C SO-8LT1019IN8-1010 串联0.2 20 1.1 650 -40°C ~85°C DIP-8LT1021BCN8-1010 串联0.5 5 1.5 800 0°C ~ 70°C DIP-8LT1021BMH-1010 串联 1 5 2.2 800 -55°C ~ 125°C TO-5LT1021CCN8-1010 串联0.05 5 2.2 800 0°C ~ 70°C DIP-8LT1021CIN8-1010 串联0.05 5 2.2 800 -40°C ~ 85°C DIP-8LT1021DCN8-1010 串联0.5 5 2.2 800 0°C ~ 70°C DIP-8LT1021DCS8-1010 串联0.5 20 1.5 800 0°C ~ 70°C SO-8LT1021DIN8-1010 串联0.05 5 2.2 800 -40°C ~ 85°C DIP-8LT1031BCH10 串联0.05 5 1 1200 0°C ~ 70°C TO-39LT1031BMH10 串联0.05 5 1 1200 -55°C ~ 125°C TO-39LT1031CCH10 串联0.1 15 1 1200 0°C ~ 70°C TO-39LT1031DCH10 串联0.2 25 1 1200 0°C ~ 70°C TO-39LT1031DMH10 串联0.2 25 1 1200 -55°C ~ 125°C TO-39LT1236ACN8-1010 串联0.05 2 1 800 0°C ~ 70°C DIP-8LT1236ACS8-1010 串联0.05 5 1 800 0°C ~ 70°C SO-8LT1236AIN8-1010 串联0.05 2 1 800 -40°C ~ 85°C DIP-8LT1236AIS8-1010 串联0.05 2 1 800 -40°C ~ 85°C SO-8LT1236BCN8-1010 串联0.1 5 1 800 0°C ~ 70°C DIP-8LT1236BCS8-1010 串联0.1 5 1 800 0°C ~ 70°C SO-8LT1236BIN8-1010 串联0.1 5 1 800 -40°C ~ 85°C DIP-8LT1236BIS8-1010 串联0.1 5 1 800 -40°C ~ 85°C SO-8LT1236CCN8-1010 串联0.1 10 1 800 0°C ~ 70°C DIP-8LT1236CCS8-1010 串联0.1 10 1 800 0°C ~ 70°C SO-8LT1236CIN8-1010 串联0.1 10 1 800 -40°C ~ 85°C DIP-8LT1236CIS8-1010 串联0.1 10 1 800 -40°C ~ 85°C SO-8LT1460ACN8-1010 串联0.075 10 .9 190 0°C ~ 70°C DIP-811LT1460BIS8-1010 串联0.1 10 .9 190 -40°C ~ 85°C SO-8LT1460CCMS8-1010 串联0.1 7 .9 190 0°C ~ 70°C MS-8LT1460DCN8-1010 串联0.1 10 .9 190 0°C ~ 70°C DIP-8LT1460DCS8-1010 串联0.1 20 .9 190 0°C ~ 70°C SO-8LT1460EIN8-1010 串联0.125 20 .9 190 -40°C ~ 85°C DIP-8LT1460EIS8-1010 串联0.125 20 .9 190 -40°C ~ 85°C SO-8LT1460FCMS8-1010 串联0.15 25 .9 190 0°C ~ 70°C MS-8LT1460GCZ-1010 串联0.25 25 .9 190 0°C ~ 70°C TO-92LT1460GIZ-1010 串联0.25 25 .9 190 -40°C ~ 85°C TO-92LT1460HCS3-1010 串联0.2 20 1.1 190 0°C ~ 70°C SOT-23LT1460JCS3-1010 串联0.4 20 1.1 190 0°C ~ 70°C SOT-23LT1460KCS3-1010 串联0.5 50 1.1 190 0°C ~ 70°C SOT-23LT6660HCDC-1010 串联0.2 20 .9 215 0°C ~ 70°C DFN-3LT6660JCDC-1010 串联0.4 20 .9 215 0°C ~ 70°C DFN-3LT6660KCDC-1010 串联0.5 50 .9 215 0°C ~ 70°C DFN-3LT1431CN8可调并联0.4 30 并联600 0°C ~ 70°C DIP-8LT1431CS8可调并联0.4 30 并联600 0°C ~ 70°C SO-8LT1431CZ可调并联0.4 30 并联600 0°C ~ 70°C TO-92LT1431IN8可调并联0.4 30 并联600 -40°C ~ 85°C DIP-8LT1431IS8可调并联0.4 30 并联600 -40°C ~ 85°C SO-8LT1431IZ可调并联0.4 50 并联600 -40°C ~ 85°C TO-9212。
阿布拉康RFID标签说明书
MSL level: Not ApplicableRFID systems for Logistic & Inventory Management of Retail, Pharmaceutical, Automotive Industries; Industrial automation, Contactless smart cards.• RoHS Compliant • SMD Type • High GainRange of Receiving Frequency 865-868 MHzFrequency of Lowest Return Loss 892±3MHz (On TEST Plane) Tag center frequency868±5 MHzOn Metal surfaceG AIN1.0dBi(On70x70 G ND Plane) Polari z ation Model Linear(Right H and Circular Polari za tion) Im ped anceEPCΩWorking Tem pe rature -40 +85˚CStorage Tem pe rature-40 +110˚CFrequency Tem pe rature Coefficient0±10pp m/˚CTray Outer BoxCAUTION:(1) Do not apply excess mechanical stress to the component body or termination s. Do not attempt to re-form or bend the compone nts as this will cause damage to the component.(2) Do not expose the component to open flame.(3) This specification applies to the functionality of the component as a single un i t. Please insure the component is thoroughly evaluated in the application circuit.NOTE:1) The p arts are manufactured in accordance with this s p ecification. If other conditions and s p ecifications which are required for this s p ecifica-tion, p lease contact ABRACON for more information.2) ABRACON will su pp ly the p arts in accordance with this s p ecification unless we receive a written request to modify p rior to an order p lacement.3) In no case shall ABRACON be liable for any p roduct failure from in a pp ro p riate handling or o p eration of the item beyond the sco p e of this s p ecifica-tion.4) When changing your p roduction p rocess, p lease notify ABRACON immediately.5) ABRACON Cor p oration’s p roducts are COTS – Commercial-Off-The-Shelf p roducts; suitable for Commercial, Industrial and, where designated, Automotive A pp lications. ABRACON’s p roducts are not s p ecifically designed for Military, Aviation, Aeros p ace, Life-de p endant Medicala pp lications or any a pp lication requiring high reliability where com p onent failure could result in loss of life and/or p ro p erty. For a pp lications requiring high reliability and/or p resenting an extreme o p erating environment, written consent and author iz ation from ABRACON Cor p oration is required. Please contact ABRACON Cor p oration for more information.6) All s p ecifications and Marking will be subject to change without notice.。
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Document Number
SiI-SC-1303
Thursday, March 06, 2014 Sheet
1
Rev A00 1 of 8
5
4
3
2
1
D
D
C
C
B
B
A
A
Silicon Image 1060 E. Arques Ave. Sunnyvale, CA 95085 Title SiI 9678 Starter Kit Board Cover Page Size Custom Date:
HDMI-A-RECEPTACLE 20 SHELL1 21 D2+ SHELL2 D2 Shield D2D1+ D1 Shield D1D0+ D0 Shield D0CK+ CK Shield CKCE Remote NC DDC CLK DDC DATA GND +5V 22 HPD SHELL3 23 SHELL4 CN2
C118 10uF/10V
C116 0.1uF
C117 2.2uF
C258 10nF
C101 C102 C100 10uF/10V 2.2uF 0.1uF 0603 DVDD10 HSIC_VDDH33 HSIC_VDD10 AVDD10_PLL AVDD10_DP AVDD10_DoC AVDD10 FVDD10 VDD10 LPSBV C167 C169 2.2uF 10uF/10V C89 VDDH33 XTAL_VDD33 AVDD33_DoC
B
3 4 5 6 7 8
A
A
Silicon Image 1060 E. Arques Ave. Sunnyvale, CA 95085 Title SiI 9678 Starter Kit Board Cover Page Size Custom Date:
5 4 3 2
Tel: (408)616-4000 Fax: (408) 830-9530
SS: CBUS
CBUS_HPD
TP_TH6
AVDD10_PLL
HSIC_VDD10
DVDD10
VDD33OUT C130 0.1uF 4.7uF 0805 R50 180
VDDIO33
SS: CD_PULLUP
TP_SMD42
D
D
C115 10uF/10V
C113 0.1uF
C114 2.2uF
C257 10nF
U2 RClamp0524P SLP2510P8
U5 RClamp0524P SLP2510P8
1 2 3 4 5
'L1 L1' 'L2 L2' GNDGND 'L3 L3' 'L4 L4'
10 9 8 7 6
CD_PULLUP_TDSCL SDA_SENSE_TDSDA CBUS_HPD VBUS VBUS CBUS_HPD
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
RPW R5V RX_HPD
U8 RClamp0524P SLP2510P8 FB30 220ohm@100MHz C52 0.1uF SS:Ext/Int MCU select TX_INT 1-2:default VDD3.3
RST
34 16 15 14 13 12 11 8 7 75 76 3 4 77
TX2P TX2N TX1P TX1N
47 46 45 44 43 42 41 40 66 67 71 38 26 27 28 29 72 73
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19
5
4
3
2
1
D
D
CP9678 HDMI Transmitter Starter Kit
C
SILICON IMAGE CONFIDENTIAL
C
PAGE
1 2
B
TITLE
Cover Page Block Diagram SiI9678 MCU Power Power Management USB Debug Interface Change List
FVDD10
AVDD10
AVDD10_DoC
AVDD10_DP
VDD5V_IN
XTAL_VDD33
SS:Chip Status TP_SMD51
VDD33OUT
SS: 3V3 OUT
C90 10uF/10V C91 0.1uF C25 C166 C165 0.1uF C164 2.2uF C105 10uF/10V C103 C104 C259 C107 10uF/10V C109 0.1uF C106 0.1uF C108 2.2uF C256 10nF C112 10uF/10V C110 0.1uF C111 2.2uF C260 10nF C133 10uF/10V C131 0.1uF C132 2.2uF C261 10nF C121 10uF/10V C120 0.1uF C119 2.2uF C127 C126 10uF/10V C300 C125 2.2uF 10uF/10V 0.1uF 2.2uF 10nF 0.1uF 0.1uF 2.2uF
C96 10uF/10V
C26 2.2uF
C95
C97
C98 0.1uF
C99 0.1uF R22 3.3K 1%(NP)
CD_PULLUP_TDSCL
0.1uF 0.1uF 0603
EVQ-PB_SWITCH SW6 C58 0.1uF 0402 C155 10uF/10V R72 0 0603
VDD3.3 LPSBV R86 10K 0603 RST
TX0P TX0N TXCP TXCN TDSCL TDSDA NC TX_HPD NC NC NC NC NC RSVDL
L5 1 4 L6 1 4 L7 1 4 L8 1 4
1 4 1 4 1 4 1 4
DLW21SN670HQ2L 2 TX2+ 2 3 TX23
1 2 3 4 5
'L1 L1' 'L2 L2' GNDGND 'L3 L3' 'L4 L4'
VDD33OUT AVDD33_DoC
1
VDDIO33
C123 0.1uF 0402
C122
C124 Q3
3
VDD5V_IN
C87
C88
2
C128 0.1uF 4.7uF 0805 C129 0.1uF 4.7uF 0805
LED D8 VDDH33
TP_SMD43 SDA_SENSE_TDSDA
0603
48 65 33 19 10
1 37 56 VDD33OUT AVDD33 VDD12OUT
LPSBV5V VDD10 VDD10 VDD10 VDD10 FVDD10 AVDD10 AVDD10 AVDD10 AVDD10_DP AVDD10_PLL AVDD10 VDD33 AVDD10_OSC VDD5V_IN
HDMI-A-RECEPTACLE 20 21 SHELL1 SHELL2 D2+ D2 Shield D2D1+ D1 Shield D1D0+ D0 Shield D0CK+ CK Shield CKCE Remote NC DDC CLK DDC DATA GND +5V 22 23 SHELL3 HPD SHELL4 CN1
RX2+ RX2RX1+ RX1RX0+ RX0RXC+ RXCDSCL DSDA RPWR5V HPD
RClamp0524P U3 SLP2510P8 1 10 L1' 9 2 'L1 L2' 8 3 'L2 4 GNDGND 7 L3' 6 5 'L3 'L4 L4'
RESETN RX2P RX2N RX1P RX1N RX0P RX0N RXCP RXCN DSCL DSDA
5 4 3 2
Tel: (408)616-4000 Fax: (408) 830-9530
Document Number
SiI-SC-1303
Thursday, March 06, 2014 Sheet
1
Rev A00 2 of 6
5
4
3
2
1
VDD10
HSIC_VDDH33
10 9 8 7 6
2 TX1+ 2 3 TX13 DLW21SN670HQ2L 2 MHL+ 2 3 MHL3 DLW21SN670HQ2L 2 TXC+ 2 3 TXC3
SLP2510P8 U4 RClamp0524P 1 10 L1' 9 2 'L1 L2' 8 3 'L2 GND GND 4 7 L3' 6 5 'L3 'L4 L4'
22uF/10V
25 20
68 69
49 50
21 22 23 30 31 32
64 63 62 61 60
54 53
1
B
SS: DSCL(HDMI in) SS: DSDA(HDMI in)
SS:RPWR5V(HDMI In)
RPWR5V
4 4 4
TX_INT CSCL CSDA
TMODE TX_INT CSCL CSDA C21 22pF 0603 R13 1M 0603 C22 22pF 0603 Y1 24 MHz HC-49US