奥伟斯科技为您提供GS8051_GS8052_GS8054系列聚洵高速运算放大器

描述：GS8551/GS8552/GS8554放大器是单/双/四电源，微功耗，零漂移CMOS运算放大器，这些放大器提供1.8MHz的带宽，轨至轨输入和输出以及1.8V至5.5V的单电源供电。

GS855X使用斩波稳定技术来提供非常低的失调电压（最大值小于5µV），并且在整个温度范围内漂移接近零。

每个放大器的静态电源电流低至180µA，输入偏置电流极低，仅为20pA，因此该器件是低失调，低功耗和高阻抗应用的理想选择。

GS855X提供了出色的CMRR，而没有与传统的互补输入级相关的分频器。

该设计为驱动模数转换器带来了卓越的性能转换器（ADC），而不会降低差分线性度。

GS8551提供SOT23-5和SOP-8封装。

GS8552提供MSOP-8和SOP-8封装。

GS8554 Quad具有绿色SOP-14和TSSOP-14封装。

在所有电源电压下，-45oC至+ 125oC的扩展温度范围提供了额外的设计灵活性。

特点：+ 1.8V〜+ 5.5V单电源供电•嵌入式RF抗EMI滤波器•轨到轨输入/输出•小型封装：•增益带宽乘积：1.8MHz（典型@ 25°C）GS8551采用SOT23-5和SOP-8封装•低输入偏置电流：20pA（典型值@ 25°C）GS8552采用MSOP-8和SOP-8封装•低失调电压：30µV（最大@ 25°C）GS8554采用SOP-14和TSSOP-14封装•静态电流：每个放大器180µA（典型值）•工作温度：-45°C〜+ 125°C•零漂移：0.03µV / oC（典型值）应用：换能器应用•手持测试设备•温度测量•电池供电的仪器•电子秤Features•Single-Supply Operation from +1.8V ~ +5.5V •Embedded RF Anti-EMI Filter•Rail-to-Rail Input / Output •Small Package:•Gain-Bandwidth Product: 1.8MHz (Typ. @25°C) GS8551 Available in SOT23-5 and SOP-8 Packages•Low Input Bias Current: 20pA (Typ. @25°C) GS8552 Available in MSOP-8 and SOP-8 Packages•Low Offset Voltage: 30µV (Max. @25°C) GS8554 Available in SOP-14 and TSSOP-14 Packages•Quiescent Current: 180µA per Amplifier (Typ)•Operating Temperature: -45°C ~ +125°C•Zero Drift: 0.03µV/o C (Typ)General DescriptionGS8551 / GS8552 / GS8554放大器是单/双/四电源，微功耗，零漂移CMOS运算放大器，这些放大器提供1.8MHz的带宽，轨至轨输入和输出以及1.8以上的单电源供电V至5.5V。

GS6001.6002.6004描述GS6001系列的增益带宽乘积为1MHz，转换速率为0.8V /μs，在5V时的静态电流为75μA/放大器。

GS6001系列旨在在低压和低噪声系统中提供最佳性能。

它们可将轨到轨的输出摆幅转换成重负载。

输入共模电压范围包括地，对于GS6001系列，最大输入失调电压为3.5mV。

它们的额定温度范围为扩展的工业温度范围（-40℃至+ 125℃）。

工作范围为1.8V至6V。

GS6001单个采用绿色SC70-5和SOT23-5封装。

GS6002 Dual采用绿色SOP-8和MSOP-8封装。

GS6004 Quad具有绿色SOP-14和TSSOP-14封装。

应用：ASIC输入或输出放大器•传感器接口•医学交流• 烟雾探测器• 音频输出•压电换能器•医疗仪器•便携式系统特征：•+ 1.8V〜+ 6V单电源供电•轨到轨输入/输出•增益带宽乘积：1MHz（典型值）•低输入偏置电流：1pA（典型值）•低失调电压：3.5mV（最大值）•静态电流：每个放大器75µA（典型值）•嵌入式射频抗电磁干扰滤波器•工作温度：-40°C〜+ 125°C•包装：GS6001提供SOT23-5和SC70-5封装GS6002提供SOP-8和MSOP-8封装GS6004提供SOP-14和TSSOP-14封装Features•Single-Supply Operation from +1.8V ~ +6V •Operating Temperature: -40°C ~ +125°C•Rail-to-Rail Input / Output •Small Package:•Gain-Bandwidth Product: 1MHz (Typ.) GS6001 Available in SOT23-5 and SC70-5 Packages •Low Input Bias Current: 1pA (Typ.) GS6002 Available in SOP-8 and MSOP-8 Packages •Low Offset Voltage: 3.5mV (Max.) GS6004 Available in SOP-14 and TSSOP-14 Packages •Quiescent Current: 75µA per Amplifier (Typ.)•Embedded RF Anti-EMI FilterGeneral DescriptionThe GS6001 family have a high gain-bandwidth product of 1MHz, a slew rate of 0.8V/ s, and a quiescent current of 75A/amplifier at 5V. The GS6001 family is designed to provide optimal performance in low voltage and low noise systems. They provide rail-to-rail output swing into heavy loads. The input common mode voltage range includes ground, and the maximum input offset voltage is 3.5mV for GS6001 family. They are specified over the extended industrial temperature range (-40 to +125 ). The operating range is from 1.8V to 6V. The GS6001 single is available in Green SC70-5 and SOT23-5 packages. The GS6002 dual is available in Green SOP-8 and MSOP-8 packages. The GS6004 Quad is available in Green SOP-14 and TSSOP-14 packages.Applications•ASIC Input or Output Amplifier •Audio Output•Sensor Interface •Piezoelectric Transducer Amplifier •Medical Communication •Medical Instrumentation•Smoke Detectors •Portable SystemsPin ConfigurationFigure 1. Pin Assignment DiagramAbsolute Maximum RatingsCondition Min Max Power Supply Voltage (V DD to Vss) -0.5V +7.5V Analog Input Voltage (IN+ or IN-) Vss-0.5V V DD+0.5V PDB Input Voltage Vss-0.5V +7V Operating Temperature Range -40°C +125°C Junction Temperature +160°CStorage Temperature Range -55°C +150°C Lead Temperature (soldering, 10sec) +260°CPackage Thermal Resistance (T A=+25 )SOP-8, θJA 125°C/WMSOP-8, θJA 216°C/WSOT23-5, θJA 190°C/WSC70-5, θJA 333°C/WESD SusceptibilityHBM 6KVMM 400VNote: Stress greater than those listed under Absolute Maximum Ratings may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other conditions outside those indicated in the operational sections of this specification are not implied. Exposure to absolute maximum rating conditions for extended periods may affect reliability.Package/Ordering InformationMODEL CHANNEL ORDER NUMBERPACKAGEDESCRIPTIONP ACKAGEOPTIONMARKINGINFORMATIONGS6001-CR SC70-5 Tape and Reel,3000 6001GS6001 SingleGS6001-TR SOT23-5 Tape and Reel,3000 6001 GS6001Y-CR SC70-5 Tape and Reel,3000 6001Y GS6001Y-TR SOT23-5 Tape and Reel,3000 6001YGS6002 Dual G S6002-SR SOP-8 Tape and Reel,4000 GS6002 GS6002-MR MSOP-8 Tape and Reel,3000 GS6002GS6004 Quad GS6004-TR TSSOP-14 Tape and Reel,3000 GS6004 GS6004-SR SOP-14 Tape and Reel,2500 GS6004Electrical Characteristics(At VS = +5V, RL = 100kΩ connected to VS/2, and VOUT = VS/2, unless otherwise noted.)GS6001/2/4PARAMETER SYMBOL CONDITIONS TYP MIN/MAX OVER TEMPERATURE+25 +25 -40 to +85 UNITS MIN/MAX INPUT CHARACTERISTICSInput Offset Voltage V OS V CM = V S/2 0.8 3.5 5.6 mV MAX Input Bias Current I B 1 pA TYP Input Offset Current I OS 1 pA TYP Common-Mode Voltage Range V CM V S = 5.5V -0.1 to +5.6 V TYPV S = 5.5V, V CM = -0.1V to 4V 70 62 62 dB Common-Mode Rejection Ratio CMRR MINV S = 5.5V, V CM = -0.1V to 5.6V 68 56 55Open-Loop Voltage Gain A OL R L = 5kΩ, V O = +0.1V to +4.9V 80 70 70 dBR L = 10kΩ, V O = +0.1V to +4.9V 100 94 85MINInput Offset Voltage Drift ∆V OS/∆T 2.7 µV/ TYP OUTPUT CHARACTERISTICSV OH R L = 100kΩ 4.997 4.980 4.970 V MINV OL R L = 100kΩ 5 20 30 mV MAX Output Voltage Swing from RailV OH R L = 10kΩ 4.992 4.970 4.960 V MINV OL R L = 10kΩ8 30 40 mV MAXOutput Current I 84 60 45R = 10Ω to V /2I SINK 75 60 45mA MINPOWER SUPPLY1.8 1.8 V MIN Operating Voltage Range6 6 V MAX Power Supply Rejection Ratio PSRR V S = +2.5V to +6V, V CM = +0.5V 82 60 58 dB MIN Quiescent Current / Amplifier I Q 75 110 125 µA MAX DYNAMIC PERFORMANCE (CL = 100pF)Gain-Bandwidth Product GBP 1 MHz TYP Slew Rate SR G = +1, 2V Output Step 0.8 V/µs TYP Settling Time to 0.1% t S G = +1, 2V Output Step 5.3 µs TYP Overload Recovery Time V IN ·Gain = V S 2.6 µs TYP NOISE PERFORMANCEVoltage Noise Density e n f = 1kHz 27 nV / Hz TYP f = 10kHz 20 nV / Hz TYPTypical Performance charAt T A=+25o C, Vs=5V, R L=100KΩ connecteLarge Signal Transient Response Small Signal Transient ResponseC L=100pFR L=100kΩG=+1C L=100pFR L=100kΩG=+1Time(10µs/div) Time(2µs/div)CMRR vs. Frequency PSRR vs. FrequencyFrequency (kHz) Frequency (kHz) Supply Current vs. Temperature Overload Recovery TimeVs=5.5VVs=1.8VVs=5VG=-5V IN=500mV Vs=5VTemperature ( ) Time(2µs/div)Typical Performance characteristicsAt T A=+25o C, R L=100KΩ connected to V S/2 and V OUT= V S/2, unless otherwise noted.Output Voltage Swing vs.Output Current Output Voltage Swing vs.Output Current Sourcing CurrentSourcing Current-50-50Vs=3V 25Vs=5V 135 25135-50-50Sinking CurrentSinking CurrentOutput Current(mA) Output Current(mA)Input Voltage Noise Spectral Density vs. Frequency Open Loop Gain, Phase Shift vs. Frequency Frequency (kHz) Frequency (kHz)Application NoteSizeGS6001系列系列运算放大器具有单位增益稳定的特性，适用于各种通用应用。

GS8591/GS8592/GS8594放大器是单/双/四电源，微功耗，零漂移CMOS运算放大器，这些放大器提供4.5MHz的带宽，轨至轨输入和输出以及1.8V至5.5V的单电源供电。

GS859X使用斩波稳定技术来提供非常低的失调电压（最大值小于50µV），并且在整个温度范围内漂移接近零。

每个放大器550µA的低静态电源电流和20pA的极低输入偏置电流使这些器件成为低失调，低功耗和高阻抗应用的理想选择。

GS859X提供了出色的CMRR，而没有与传统的互补输入级相关的分频器。

这种设计在驱动模数转换器（ADC）方面具有卓越的性能，而不会降低差分线性度。

GS8591提供SOT23-5和SOP-8封装。

GS8592提供MSOP-8和SOP-8封装。

GS8594 Quad具有绿色SOP-14和TSSOP-14封装。

在所有电源电压下，-45oC 至+ 125oC的扩展温度范围提供了额外的设计灵活性。

特性：+ 1.8V〜+ 5.5V单电源供电•嵌入式RF抗EMI滤波器•轨到轨输入/输出•小型封装：•增益带宽乘积：4.5MHz（典型@ 25°C）GS8591采用SOT23-5和SOP-8封装•低输入偏置电流：20pA（典型值@ 25°C）GS8592采用MSOP-8和SOP-8封装•低失调电压：30µV（最大@ 25°C）GS8594采用SOP-14和TSSOP-14封装•静态电流：每个放大器550µA（典型值）•工作温度：-45°C〜+ 125°C•零漂移：0.03µV / oC（典型值）Features•Single-Supply Operation from +1.8V ~ +5.5V •Embedded RF Anti-EMI Filter•Rail-to-Rail Input / Output •Small Package:•Gain-Bandwidth Product: 4.5MHz (Typ. @25°C) GS8591 Available in SOT23-5 and SOP-8 Packages•Low Input Bias Current: 20pA (Typ. @25°C) GS8592 Available in MSOP-8 and SOP-8 Packages•Low Offset Voltage: 30µV (Max. @25°C) GS8594 Available in SOP-14 and TSSOP-14 Packages •Quiescent Current: 550µA per Amplifier (Typ.)•Operating Temperature: -45°C ~ +125°C•Zero Drift: 0.03µV/o C (Typ.)General DescriptionThe GS859X amplifier is single/dual/quad supply, micro-power, zero-drift CMOS operational amplifiers, the amplifiers offer bandwidth of 4.5MHz, rail-to-rail inputs and outputs, and single-supply operation from 1.8V to 5.5V. GS859X uses chopper stabilized technique to provide very low offset voltage (less than 50µV maximum) and near zero drift over temperature. Low quiescent supply current of 550µA per amplifier and very low input bias current of 20pA make the devices an ideal choice for low offset, low power consumption and high impedance applications. The GS859X offers excellent CMRR without the crossover associated with traditional complementary input stages. This design results in superior performance for driving analog-to-digital converters (ADCs) without degradation of differential linearity.The GS8591 is available in SOT23-5 and SOP-8 packages. And the GS8592 is available in MSOP-8 and SOP-8 packages. TheGS8594 Quad is available in Green SOP-14 and TSSOP-14 packages. The extended temperature range of -45o C to +125o C over all supply voltages offers additional design flexibility.Applications•Transducer Application •Handheld Test Equipment•Temperature Measurements •Battery-Powered Instrumentation•Electronics ScalesPin ConfigurationFigure 1. Pin Assignment DiagramAbsolute Maximum RatingsCondition Min Max Power Supply Voltage (V DD to Vss) -0.5V +7.5V Analog Input Voltage (IN+ or IN-) Vss-0.5V V DD+0.5V PDB Input Voltage Vss-0.5V +7V Operating Temperature Range -45°C +125°C Junction Temperature +160°CStorage Temperature Range -55°C +150°C Lead Temperature (soldering, 10sec) +260°CPackage Thermal Resistance (T A=+25 )SOP-8, θJA 125°C/WMSOP-8, θJA 216°C/WSOT23-5, θJA 190°C/WESD SusceptibilityHBM 6KVMM 400VNote: Stress greater than those listed under Absolute Maximum Ratings may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other conditions outside those indicated in the operational sections of this specification are not implied. Exposure to absolute maximum rating conditions for extended periods may affect reliability.Package/Ordering InformationMODEL CHANNEL ORDER NUMBERPACKAGEDESCRIPTIONPACKAGEOPTIONMARKINGINFORMATIONGS8591 SingleGS8591-TR SOT23-5 Tape and Reel,3000 8591 GS8591Y-SR SOP-8 Tape and Reel,4000 GS8591YGS8592 Dual G S8592-SR SOP-8 Tape and Reel,4000 GS8592 GS8592-MR MSOP-8 Tape and Reel,3000 GS8592GS8594 Quad GS8594-TR TSSOP-14 Tape and Reel,3000 GS8594 GS8594-SR SOP-14 Tape and Reel,2500 GS8594Electrical Characteristics(V S = +5V, V CM = +2.5V, V O = +2.5V, T A = +25 , unless otherwise noted.)PARAMETER CONDITIONS MIN TYP MAX UNITS INPUT CHARACTERISTICSInput Offset Voltage (V OS) 1 5 µV Input Bias Current (I B) 20 pA Input Offset Current (I OS) 10 pA Common-Mode Rejection Ratio(CMRR)V CM = 0V to 5V 110 dB Large Signal Voltage Gain ( A VO) R L = 10kΩ, V O = 0.3V to 4.7V 145 dB Input Offset Voltage Drift (∆V OS/∆T) 30 nV/ OUTPUT CHARACTERISTICSOutput Voltage High (V OH) R L = 100kΩ to - V S 4.998 V R L = 10kΩ to - V S 4.994 VOutput Voltage Low (V OL) R L = 100kΩ to + V S 2 mV R L = 10kΩ to + V S 5 mVShort Circuit Limit (I SC) R L =10Ω to - V S 43 mA Output Current (I O) 30 mA POWER SUPPLYPower Supply Rejection Ratio (PSRR) V S = 2.5V to 5.5V 115 dB Quiescent Current (I Q) V O = 0V, R L = 0Ω 180 µA DYNAMIC PERFORMANCEGain-Bandwidth Product (GBP) G = +100 4.5 MHz Slew Rate (SR) R L = 10kΩ 2.5 V/µs Overload Recovery Time 0.10 ms NOISE PERFORMANCEVoltage Noise (e n p-p) 0Hz to 10Hz 0.2 µV P-PnV Voltage Noise Density (e n) f = 1kHz 30 HzTypical Performance characteristicsLarge Signal Transient Response at +5V Large Signal Transient Response at +2.5VC L=300pF R L=2kΩA V=+1C L=300pFR L=2kΩA V=+1Time(4µs/div) Time(2µs/div)Small Signal Transient Response at +5V Small Signal Transient Response at +2.5VC L=50pF R L=∞A V=+1C L=50pFR L=∞A V=+1Time(4µs/div) Time(4µs/div)Closed Loop Gain vs. Frequency at +5V Closed Loop Gain vs. Frequency at +2.5V G=-100 G=-100 G=-10 G=-10G=+1 G=+1Frequency (kHz) Frequency (kHz)Typical Performance characteristicsOpen Loop Gain, Phase Shift vs. Frequency at +5V Open Loop Gain, Phase Shift vs. Frequency at +2.5VPhase ShiftV L=0pFR L=∞V L=0pFR L=∞Phase ShiftOpen Loop GainOpen Loop Gain Frequency (Hz) Frequency (Hz) Positive Overvoltage Recovery Negative Overvoltage RecoveryV SY= 2.5VV IN=-200mVp-p(RET to GND)C L=0pFR L=10kΩA V=-100 V SY= 2.5VV IN=-200mVp-p(RET to GND) C L=0pFR L=10kΩA V=-100Time (40µs/div) Time (40µs/div) 0.1Hz to 10Hz Noise at +5V 0.1Hz to 10Hz Noise at +2.5VG=10000G=10000 Time (10s/div) Time (10s/div)Application NoteSizeGS859X系列运算放大器具有单位增益稳定的特性，适用于各种通用应用。

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本公司拥有不事先通知而修改产品的权利，对于最新的信息，请参考官方网站 目录1.产品概述 (3)1.1描述 (3)1.2功能特性 (3)1.3典型应用 (3)1.4订购信息 (3)2.管脚分布 (4)3.系统框图 (5)4.绝对最大额定值 (6)5.推荐工作条件 (7)6.电特性参数表 (8)7.典型应用电路图 (9)8.应用说明 (10)8.1自举电容 (10)8.2栅极驱动电阻 (10)8.3PCB注意事项 (11)9.测试说明 (12)9.1时间参数定义 (12)9.2逻辑时序图 (12)9.3VCC、VBS欠压时序图 (13)9.4瞬态负压安全工作区 (13)10.封装形式外形尺寸图 (14)10.1TSSOP20 (14)11.版本历史 (15)1. 产品概述2. 管脚分布3. 系统框图4. 绝对最大额定值5. 推荐工作条件6. 电特性参数表7. 典型应用电路图7) D1自举二极管，需耐压足够且恢复速度快；8) R6/D2以及R7/D3构成快关电路可提升关断速度优化寄生导通噪声。

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目录1 介绍 (4)1.1产品概述 (4)1.2产品特性 (4)2 交换机的组成部分 (5)2.1前面板 (5)2.2后面板 (5)2.3侧板 (5)2.4C ONSOLE口说明 (5)2.5WEB管理说明 (5)3 交换机的安装 (6)3.1物品清单 (6)3.2安置方法 (6)4 面板工作状态显示 (8)4.1电源指示(PWR) (8)4.2系统指示(SYS) (8)4.3端口状态指示 (8)5 设置网络连接 (9)6 以太网交换机技术介绍 (10)7 附录 (12)7.1产品规格 (12)7.2线缆说明 (14)1介绍本章主要介绍赛天14个万兆RJ-45端口、2个万兆SFP+光口，管理型以太网交换机的特性。

1.1 产品概述ST-W9142RM以太网交换机提供14个10/100/1000/10GMbps自适应RJ-45端口，2个万兆SFP+光口。

带1个RJ-45 console端口，可对交换机进行配置管理；同时提供WEB页面管理，简化操作过程。

ST-W9142RM以太网交换机提供了一个简单、经济、高性能、无缝隙、标准的迁移到10G网络的解决方法，在提高工作组性能上提供了很大的灵活性，具有使用简单灵活，安装方便，性能优越，是建立中型或大型10G网络所需的理想产品，专门为需要快速连接和宽带服务的工作组而设计。

GS8331 GS8332 GS8334 描述GS8331 GS8332 GS8334放大器是单/双/四电源，微功耗，零漂移CMOS运算放大器，这些放大器提供350 kHz的带宽，轨至轨输入和输出以及1.8V至5.5V的单电源供电。

GS833X使用斩波稳定技术来提供非常低的失调电压（最大值小于10µV），并且在整个温度范围内漂移接近零。

每个放大器具有25µA的低静态电源电流，以及20pA的极低输入偏置电流，使该器件成为低失调，低功耗和高阻抗应用的理想选择。

GS833X提供了出色的CMRR，而没有与传统的互补输入级相关的分频器。

这种设计在驱动模数转换器（ADC）方面具有卓越的性能，而不会降低差分线性度。

GS8331 GS8332 GS8334 应用•换能器应用•手持测试设备•温度测量•电池供电的仪器•电子秤Features•Single-Supply Operation from +1.8V ~ +5.5V •Embedded RF Anti-EMI Filter•Rail-to-Rail Input / Output •Small Package:•Gain-Bandwidth Product: 350KHz (Typ. @25°C) GS8331 Available in SOT23-5, SC70-5 and SOP-8•Low Input Bias Current: 20pA (Typ. @25°C) Packages•Low Offset Voltage: 10uV (Max. @25°C) GS8332 Available in SOP-8, MSOP-8 and DFN-8•Quiescent Current: 25µA per Amplifier (Typ) Packages•Operating Temperature: -45°C ~ +125°C GS8334 Available in SOP-14 and TSSOP-14 Packages•Zero Drift: 0.05µV/°C (Typ)General DescriptionGS833X放大器是单/双/四电源，微功耗，零漂移CMOS运算放大器，这些放大器提供350 kHz的带宽，轨至轨输入和输出以及1.8V至5.5V 的单电源供电。

CC1310-TC-005小体积低功耗嵌入式433M无线数传模块V3.0深圳市硅传科技有限公司地址：深圳市龙华区创业路汇海广场C座13层1305邮编：518109电话**************传真：*************邮箱：**********************网址：https://版本说明目录一、功能介绍 (4)二、应用领域 (4)三、模块特性 (5)四、尺寸示意图 (5)五、引脚说明 (6)六、硬件连接 (7)七、AT指令 (9)7.1 AT+MODE –设置工作模式 (9)7.2 AT+UART –设置串口参数 (9)7.3 AT+TXP –设置设备射频发射功率 (10)7.4 AT+RFRATE –设置设备射频空中波特率 (10)7.5 AT+CH –设置设备射频的工作频道 (11)7.6 AT+FACTORY –参数恢复出厂设置 (11)7.7 AT+RSTSTM –软件复位系统 (11)7.8 AT+GETRSSI –读取RSSI (12)7.9 AT+SNTYPE –设置传感器类型 (12)7.10 AT+NTP –设置传感器节点类型 (13)7.11 AT+SNPT –设置传感器数据上报周期 (13)7.12 AT+GID –设置传感器组ID (14)7.13 AT+SID –设置传感器节点ID (14)7.14 AT+VER –读取固件版本 (15)7.15 AT+EPW –模组供电电压值 (15)7.16 AT+SNTO –设置传感器数据上电延时上报时间 (16)7.17 AT+WTMD –设置射频白化功能 (16)7.18 AT+SCPRD –设置ADC传感器采样检测个数 (17)八、电脑端上位机 (18)8.1 上位机操作说明 (18)8.2 传感器应用操作说明 (19)8.3 分组ID和节点ID (20)九、传感器串口数据协议 (21)十、使用注意事项 (22)10.1 上电延时 (22)10.2 AT指令 (22)10.3 透传数据分包机制 (22)10.4 功耗设计 (22)10.5 透传数据吞吐量 (22)一、功能介绍CC1310属于德州仪器 (TI) CC26xx 和 CC13xx 系列器件中的经济高效型超低功耗Sub 1GHz的SOC RF器件。

Gainsil聚洵半导体科技(上海)有限公司(简称聚洵Gainsil)座落在中国“硅谷”之称的张江高科技园区。

是一家专注于高性能、高品质模拟和混合信号集成电路研发和销售管理的高科技公司。

产品广泛应用于：通讯网络，消费电子，多媒体，工业控制，仪器仪表，液晶显示，汽车电子，可穿戴设备，物联网等众多领域。

公司核心团队均来自国内外顶尖半导体设计公司，拥有先进的技术及自主知识产权，具有独特的创新思维及运营模式，在半导体芯片研发工程、制造管理、市场销售管理渠道方面拥有非常丰富的经验；聚洵合作伙伴是世界知名的芯片制造公司（台积电晶圆代工＋长电科技封装测试），具有一流的工艺技术和封装技术；公司以市场为导向、以创新为驱动、以产品质量及服务客户为目标，为国内外客户提供具有成本竟争力的半导体精品芯片解决方案。

聚洵运算放大器及聚洵比较器该系列产品广泛应用于：通讯网络，消费电子，多媒体，工业自动控制，仪器仪表，液晶显示，汽车电子、可穿戴设备和物联网等众多领域。

GS8631-CR GS8631-TR GS8632-SR GS8632-MR GS8634-TR GS8634-SR GS8631N-TR GS8631N-SR GS8721-CR GS8721-TR GS8722-SR GS8722-MR GS8724-TRGS8724-SR GS8721N-TR GS8721N-SR GS6001A-CR GS6001A-TR GS6001-CR GS6001-TR GS6001Y-CR GS6001Y-TR GS6002-SR GS6002-MR GS6004-SR GS6004-MRGS2019-1.2TR GS2019-1.5TR GS2019-1.8TR GS2019-2.5TR GS2019-2.8TR GS2019-2.85TR GS2019-3.0TR GS2019-3.3TR GS2019-1.2CR GS2019-1.5CR GS2019-1.8CR GS2019-2.5CR GS2019-2.8CRGS2019-2.85CR GS2019-3.0CR GS2019-3.3CR GS4157EXT-TR GS4157BEXT-TR GS321-CRGS321-TRGS358-SRGS358-MRGS358-DRGS358-FRGS324-TRGS324-SRGS8631-CRGS8631-TRGS8632-SRGS8632-MRGS8634-TRGS8634-SRGS8631N-TRGS8631N-SRGS8331-CR触摸芯片是特指单点或多点触控技术，应用范围是手机、电脑等。

下面为您介绍IKSEMI IL54123DT IL54123N M54123接地故障断路器接地漏电流检测器IL54123描述IL54123N / D设计用于漏电断路器，可直接在交流线路断路器上运行。

它包含预调节器，主调节器，后稳压器，差分放大器，电平比较器，锁存电路。

差分放大器的输入锁存电路。

差分放大器中的输入连接到零电流变压器的次级节点。

当接地漏电流为时，电平比较器产生高电平超过一定程度。

IL54123特征•低功耗（PD = 5mW）100V / 200V•100V / 200V通用内置稳压器•高增益差分放大器•高输入灵敏度（VT = 6.1mV典型值）•最小外部零件•大浪涌保证金•宽工作温度范围（T = -30至80°C）•高抗噪性•符合U.L. 943标准IL54123N DIP8IL54123DT SOP8IL7101完全替代GL7101IL7101完全替代KA2803IL7101描述IL7101设计用于漏电断路器，可直接在交流线路断路器上运行。

它包含预调节器，主调节器，后稳压器，差分放大器，电平比较器，锁存电路。

差分放大器锁存电路中的输入。

差分放大器中的输入连接到零电流变压器的次级节点。

当漏电电流大于某个电平时，电平比较器产生高电平。

IL7101特征•低功耗（PD = 5mW）100V / 200V•100V / 200V通用内置稳压器•高增益差分放大器•高输入灵敏度•最小外部零件•大浪涌保证金•宽工作温度范围（T = -30至85°C）•高抗噪性•符合U.L. 943标准型号:IL7101SN DIP8IL7101AN DIP8IL7101SDT SOP8IL7101ADT SOP8深圳市奥伟斯科技有限公司是一家专注触摸芯片,单片机,电源管理芯片,语音芯片,场效应管,显示驱动芯片,网络接收芯片,运算放大器,红外线接收头及其它半导体产品的研发,代理销售推广的高新技术企业.奥伟斯科技自成立以来一直致力于新半导体产品在国内的推广与销售,年销售额超过壹亿人民币是一家具有综合竞争优势的专业电子元器件代理商.本公司代理推广的一系列优秀触摸芯片及语音芯片，现以大批量应用到智能电子锁、饮水机、电饭煲、LED台灯等控制器为顾客提供最佳解决方案，受到广大客户的一致赞誉。

Keysight TechnologiesE5080A ENA Vector Network Analyzer - 9 kHz to 4.5/6.5/9 GHzFor more information:The Next-Generation ENAThe Keysight E5080A is the next-generation RF vector network analyzer (VNA), providing best-in-class performance, flexible functionality and advanced usability for testing antennas, filters, cables, balanced/differential components, amplifiers and mixers. With its intuitive, touch-based interface, the E5080A is designed to help users streamline their measurement flow and achieve better results in less time. This new instrument implements a converged platform that leverages the best attributes of the ENA and PNA families. The E5080A sets the new standard in RF component testing for both R&D and manufacturing environments. The E5080A offers comprehensive functionalities for measuring active and passive components such as amplifiers, mixers, filters, antennas, cables, and many more. It builds on the over 45-year legacy of excellence in network analysis and 75-year electronic test and measurement experience.Best-in-Class PerformanceWide dynamic range152 dB (typical, 3 Hz IFBW)Fast measurement speed 3 ms (401 points, uncorrected)Low trace noise0.0005 dBrms (typical, 10 kHz IFBW)High temperature stability0.005 dB/°C (typical)Wide source power range–90 to +15 dBm (spec)The E5080A provides wide dynamic range from 9 kHz. More than 10 dB better dynamic range than E5071C enables to measure high-blocking DUTs such as filters accurately and improve measurement speed using wider IF bandwidth (IFBW). The unparalleled measurement speed compared to competitor products maximizes the test throughput in production line.Extremely low trace noise helps minimize errors and associated test margin when measuring low-loss devices such as filter pass-bands.The E5080A is designed to have the minimum temperature drift against variation of environment temperature. The superior measurement stability helps high-volume manufacturers minimize calibration time and associated downtime.152 dBIntuitive and Flexible Operations with Modern User InterfaceThe E5080A integrates a high resolution display with a touch screen, which provides a crisp view and easy access to alldata and traces. This enhanced user interface allows intuitive operation and helps you set up complex measurements quickly.The E5080A is designed to help users streamline their measurement flow. Measurement flow proceeds from right to left: front panel keys, touch-activated softkeys with tabs, and touch-driven trace displays and windowsEasy access to frequently used functionsThe tabbed soft panel enables you to access the analyzer’s major functions within a few steps. Your frequently used softkeys can be registered to the Favorite menu. A long touch on the screen activates the Context Popup menus, and these present the most relevant choices without needing to access the softkeys. Direct access to essential features through the toolbarMeasurement traces, channels, and windows can be quickly added by pressing the icons on the toolbar. The list of icons is customizable depending on your preference.Flexible traces and windows layoutThe layout of traces and windows can be flexibly allocated with intuitive drag-and-drop operations. Or the layout can also be changed by using the softkeys that split or combine traces and windows in a single action.Magnifying the displayWith multi-touch or single-touch gestures, you can magnify thedisplayed area on the screen.Figure 3. Customizable toolbar menusFigure 2. Tabbed soft panel and popup menuFigure 5. Multi-touch magnificationFigure 4. Drag-and-drop for traces/windowsStreamline Your Measurements with Advanced UsabilityThe E5080A’s advanced usability simplifies the measurement setup tasks, and its flexible display capabilities give excellent visibility of the measurement data.Quick setups using dialog menus and Copy ChannelA variety of dialog menus assist you in making complex measurement setups easily. The quick start dialog gives the templates of display layouts for typical measurement applications, and the subsequent sweep setup dialog completes necessary stimulus settings in a single page. Moreover, once you have completed making the setup for one channel, you can copyit to other channels by using the copy channel function. This significantly reduces the time required for making multi-channel measurement setups.Tabbed SheetThe tabbed sheet function allows you to split the measurement display into multiple pages within a single instrument state. Complicated multi-channel measurement data can be easily observed by splitting the channels into the sheets. The active sheet can be switched not only with the touch or mouse operations but with the Prev/Next hardkeys on the front panel. This is useful for manufacturing applications such as the BTS filter tuning where the hardkey operation is preferred.Flexible marker capabilitiesYou can place up to 15 markers per trace. For better visibility,the locations of the marker lists are flexibly movable, and the number of decimal places can be changed as you like. In addition, a variety of marker search functions are available, including the single or multiple max/min/peak/target search, the bandwidth/notch search, and the gain compression search. Figure 7. Displaying four channel data using Tabbed Sheet Figure 6. Quick Start dialogsFigure 8. Up to 15 markers per traceThe E5080A combines the highest RF performance with powerful analysis capabilities that enables you to address a variety of applications and increase test efficiency.Powerful, fast and accurate automatic fixture removal (S96007A)Accurately removing the effects of the fixture is required to get a good measurement of the DUT. Automatic fixture removal adds a powerful application wizard to guide you throughcharacterizing a fixture and removing it from the measurement. Complicated modeling in EM simulation software or multiple calibration standards fabricated on board is no longer needed to characterize and remove a fixture.–Easiest way to remove fixture effects from non-coaxial device measurements–Extract fixture S-parameters from 2x thru or one-port measurements–Step-by-step wizard to characterize your fixture and remove it from your measurementsAccurate characterization of mixers and converters (S96082A)Frequency offset mode is available to set the E5080A’s source frequency independently from where the receivers are tuned for mixer measurements. Scaler mixer calibration (SMC) provides the most accurate conversion loss/gain measurements by combining two-port and power calibration. Vector mixer calibration (VMC) provides measurements of match, conversion loss/gain and group delay. Input and output mismatch correction reduces ripple and eliminates the need for attenuators.–Intuitive user interface –Frequency-offset sweep–Match-corrected conversion loss measurements–Controls external signal generators and power metersFast, accurate gain compression versus frequency measurements of amplifiers (S96086A)S96086A makes it easy to characterize compression over the DUT’s operating frequency range with extreme speed and ac-curacy, and with a simple setup. Instead of a linear power sweep with many points, the S96086A uses an adaptive algorithm to find the desired compression point at each frequency with just a few power measurements, thus significantly reducing test times. –Fast and convenient measurements with SMART Sweep–Complete amplifier with 2-dimensional (2D) sweeps, choice of sweep frequency per power, or sweep power per frequencyE5080A Innovative ApplicationsFigure 9. Automatically characterizing test fixtureFigure 10. Intuitive wizard for configuring mixer/frequency converter measurementsFigure 11. Gain compression analysis of amplifierPinFrequencyGainCompression pointIteration pointAdvanced Calibration ToolsCalibrating network analyzers is critical for high accuracy measurements. The E5080A supports all common calibration methods for coaxial DUTs, waveguide DUTs and DUTs in test fixtures, on printed circuit boards (PCB) and on wafers. Thebuilt-in capabilities include advanced calibration methods and a new “basic calibration” feature that can simplify the calibration processes.TRL/LRL/TRM/LRM calibration (Through, Reflect, Line, Match) for on PCB and on-wafer measurements.Unknown Thru (SOLR) calibration for non-insertable devices.Source Power Cal for amplifier measurements, and offers advanced techniques such as power cal using the analyzer’s receiverQuick SOLT (QSOLT) reduces the number of correction standards and calibration steps for multiple ports calibration.Electronic calibration (ECal) modules offer accurate calibration with simple one-connection operation.Basic CalThe E5080A offers a variety of calibration menus and you can choose an appropriate menu depending on the complexity of your calibration methods. The Basic Cal dialog is a very simple calibration UI providing all the calibration buttons in the same dialog page. This calibration menu is suitable for performing relatively simple calibrations such as the basic SOLT cal. Advanced calibration methodsCal WizardThe E5080A also offers wizard-type calibration menus for complicated calibrations. The Smart Cal guides all the operation steps of the calibrations with the wizard menu. This calibration menu is suitable for performing complicated calibrations suchas mixed-connector cal, and the combination of the SOLT cal and the source/receiver power cals. The Cal All is the advanced wizard function of the Smart Cal. This calibration menu guides the calibrations of multi-channel measurement setups at minimal steps.Cal Plane ManagerThe Cal Plane Manager allows you to characterize the adapters, test fixtures, or probes to the S2P data, and mathematically de-embed them for improving the measurement accuracy at the DUT planes. This function also provides the capabilities for modifying the existing S2P files, such as reversing the port order of the S2P file and cascading two S2P files.Fixture simulatorThe fixture simulator offers functions for simulating fixtures and adapters such as embedding/deembedding, port matching, impedance transformation and port extensions.Figure 12. Basic CalFigure 13. Fixture simulatorExtend the Power of the E5080A ENA Measurements with up to 40 portsThe combination of the 4-port E5080A and E5092A configurable multiport test set offers a comprehensive multiport solution. Depending on your test requirements, you can flexibly build the test port configurations by changing the front jumper connections of up to two E5092A test sets. The measurement wizard assistant software (S93790A) simplifies complicated setup and calibration processes for multiport device tests with the E5080A and E5092A.CalPod calibration-refresh modulesKeysight provides a unique way to quickly and easily refresh a calibration at the push of a button, without removing the DUT, and without the physical connection of standards. CalPods are particularly useful in thermal or thermal-vacuum chambers for removing environmental effects from your measurement results due to temperature changes of cables, connectors, and adaptors, or for removing variations due to cable movements or variations in switch matrices.BenchVue SoftwareKeysight BenchVue software for the PC eliminates many of the issues around bench testing. By making it simple to connect, control instruments, and automate test sequences so you can quickly move past the test development phase and access results faster than ever before with just a few clicks. A dedicated Network Analyzer App, available with BV9001B, allows you to quickly configure the most commonly used measurements and setups. Rapidly build custom test sequences with the integrated Test Flow App to automate and visualize test results without the need for instrument programming. BenchVue supports hundreds of Keysight instrument types and models all from one easy to use software platform. Control, Automate, Simplify with BenchVue.–Easily control, get screen captures and trace data–Capture measurements from your network analyzer in asingle click–Automate common network analyzer controls andmeasurements as quickly as using your front panelFigure 14. Multiport configuration with E5080A and E5092AFigure 15. CalPods refresh a calibration without removing your DUT Figure 16. BenchVue: PC control, capture screen images or trace data, andbuild automated tests in minutesFigure 18. The E5080A’s state file converter helps you easilytransfer your tests with the E5071CFigure 17. Code emulation mode for legacy vector network analyzersCompatibilityThe E5080A shares a common software platform with all members of the latest PNA family that makes it easy to choose just the right level of performance to match your budget and measurement needs. This commonality guarantees measurement consistency and repeatability and a common remote-programming interface across multiple instruments in R&D and manufacturing.The E5080A offers the E5071C code emulation mode which interprets the SCPI commands of the E5071C. This allows for instrument emulation and backward code capability enabling a seamless drop-in replacement in your automated test environment and minimizing transition risks. State files created using the E5071C can be converted and recalled with the E5080A. The E5080A also supports the code emulation mode for the legacy 8753 series network analyzers.This compatibility means that you can easily make the transition to the E5080A while leveraging your investment and expertise in test software. The test software from R&D can be effortlessly transferred to manufacturing which helps you maintain past efforts, enhance current designs, and accelerate future innovations.Extend the Power of the E5080A ENA (continued)E5080A Front and Rear PanelsFlexible, modern user interface: front panel keys tabbed soft panel, pulldown menus, customizable toolbar, right-click shortcuts, drag-and-drop operation and 12.1’’ touch screenState-of-the-art calibration capabilitiesContext sensitive built-in help10 MHz reference Quick access for Ecal and other USB devicesUp to 15 markers per trace GPIB for remote operation Aux inputs for DC measurements200 measurementchannels and unlimited traces Sweep Setup and Quick Start enables easy setupUndo/Redo cancels or restores the previous entriesHandler I/O for external device controlLAN and device-side USB provide alternatives to GPIB for remote programmingRemovable solid-state drive for secure envi-ronments (optional)Maintain data securityThe removable solid-statedrive makes it easy to move the instrument from one location to another.E5080A Key Specs & Features (Comparison with E5071C)100 kHz to 4.5/6.5/8.5 GHz, with bias-tees Test port 2 or 4-port, 50 Ω 2 or 4-port, 50 ΩDynamic range(at max source power)135 dB (spec, 10 Hz IFBW)152 dB (typical, 3 Hz IFBW)123 dB (spec)Trace noise0.0015 dBrms (spec, 10 kHz IFBW)0.0005 dBrms (typical, 10 kHz IFBW)0.003 dBrms (spec, 70 kHz IFBW) Stability0.005 dB/°C (typical)0.005 dB/°C (typical) Measurement speed(401 pts, 200 MHz span, uncorrected)3 ms7 msSource power–90 to +15 dBm (spec)–110 to +17 dBm (typical)–55 to +10 dBm (spec)NOP Max 100,001Max 20,001Channels200160Markers15/trace9/traceMeasurement parameters S-parameters (single-ended, mixed-mode), Absolutepower S-parameters (single-ended, mixed-mode), Absolute power, TDR and TDT parameters1Software capabilities Automatic fixture removal, time-domain analysis,frequency offset mode, scalar & vector mixer/converter measurement, gain compression measure-ments, measurement wizard assistant Time-domain analysis, frequency offset mode, scalar & vector mixer/converter measurement, measurement wizard assistant, enhanced time-domain analysisOther major software capabilities Fixture simulator, Equation editor, PMAR (powermeter as receiver)Fixture simulator, Equation editor, External test set mode2Automation Remote control with SCPI commands, 8753/E5071C-code emulation, BenchVue Remote control with SCPI commands, Built-in VBA 8753 code emulation, BenchVueMultiport test set E5092A E5092A, E5091A3Display12.1 inch10.4 inchBox height6U5UOther major hardware capabilities High stability oven (option), Bias tees, DC input ports High stability oven (option), Bias tees, DC inputports, Probe power1. Optional capabilities2. Assigns 4 test ports as direct source/receiver ports, S, R, A, and B.3. Discontinued test set, Dec. 2014 EOS.For more detailed information, refer to E5080A Data Sheet.LiteratureE5080A EVector Network Analyzer ENA Series, Data Sheet, 5992-0291ENE5080A Vector Network Analyzer ENA Series, Configuration Guide, 5992-0292ENKeysight Technologies Network Analyzer Selection Guide, 5989-7603ENWeb Resources/find/ecal/find/mta/find/multiport/find/benchvue11 | Keysight | E5080A Vector Network Analyzer ENA Series - Data SheetThis information is subject to change without notice.© Keysight Technologies, 2016, 2017Published in USA, July 12, 20175992-0290ENFor more information on KeysightTechnologies’ products, applications or services, please contact your local Keysight office. 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描述：GS321、GS324、GS358、系列具有1MHz的高增益带宽乘积，0.6V / s的压摆率和5V时每放大器40mA的静态电流。

GS321系列旨在在低压和低噪声系统中提供最佳性能。

它们可将轨到轨的输出摆幅转换成重负载。

输入共模电压范围包括地，对于GS321系列，最大输入失调电压为3.5mV。

它们的额定温度范围为扩展的工业温度范围（-40℃至+125）。

工作范围为2.1V至5.5V。

GS321 Single采用绿色SC70-5和SOT-23-5封装。

GS358 Dual采用绿色SOP-8，MSOP-8，DIP-8和DFN-8封装。

GS324 Quad具有绿色SOP-14和TSSOP-14封装。

特点：●+ 2.1V〜+ 5.5V单电源供电●轨到轨输入/输出●增益带宽乘积：1MHz（典型值）●低输入偏置电流：1pA（典型值）●低失调电压：3.5mV（最大值）●静态电流：每个放大器40µA（典型值）●工作温度：-40°C〜+ 125°C●嵌入式射频抗电磁干扰滤波器●包装：GS321采用SOT23-5和SC70-5封装GS358提供SOP-8，MSOP-8，DIP-8和DFN-8封装GS324采用SOP-14和TSSOP-14封装应用：ASIC输入或输出放大器•传感器接口•医学交流•烟雾探测器•音频输出•压电换能器•医疗仪器•便携式系统Features•Single-Supply Operation from +2.1V ~ +5.5V •Small Package:•Rail-to-Rail Input / Output GS321 Available in SOT23-5 and SC70-5 Packages•Gain-Bandwidth Product: 1MHz (Typ.) GS358 Available in SOP-8, MSOP-8, DIP-8 and DFN-8•Low Input Bias Current: 1pA (Typ.) Packages•Low Offset Voltage: 3.5mV (Max.) GS324 Available in SOP-14 and TSSOP-14 Packages•Quiescent Current: 40µA per Amplifier (Typ.)•Operating Temperature: -40°C ~ +125°C•Embedded RF Anti-EMI FilterGeneral DescriptionThe GS321 family have a high gain-bandwidth product of 1MHz, a slew rate of 0.6V/ s, and a quiescent current of 40μA/amplifier at 5V. The GS321 family is designed to provide optimal performance in low voltage and low noise systems. Theyprovide rail-to-rail output swing into heavy loads. The input common mode voltage range includes ground, and the maximuminput offset voltage is 3.5mV for GS321 family. They are specified over the extended industrial temperature range (-40℃ to+125 ). The operating range is from 2.1V to 5.5V. The GS321 single is available in Green SC70-5 and SOT-23-5 packages.The GS358 Dual is available in Green SOP-8, MSOP-8, DIP-8 and DFN-8 packages. The GS324 Quad is available in GreenSOP-14 and TSSOP-14 packages.Applications•ASIC Input or Output Amplifier •Audio Output•Sensor Interface •Piezoelectric Transducer Amplifier •Medical Communication •Medical Instrumentation •Smoke Detectors •Portable SystemsPin ConfigurationFigure 1. Pin Assignment DiagramAbsolute Maximum RatingsCondition Min MaxPower Supply Voltage (V DD to Vss) -0.5V +7.5VAnalog Input Voltage (IN+ or IN-) Vss-0.5V V DD+0.5VPDB Input Voltage Vss-0.5V +7VOperating Temperature Range -40°C +125°CJunction Temperature +160°CStorage Temperature Range -55°C +150°CLead Temperature (soldering, 10sec) +260°CPackage Thermal Resistance (T A=+25 )SOP-8, θJA 125°C/WMSOP-8, θJA 216°C/WSOT23-5, θJA 190°C/WSC70-5, θJA 333°C/WESD SusceptibilityHBM 6KVMM 300V注意：应力大于“绝对最大额定值”中列出的压力可能会导致设备永久损坏。

超高速1T 8051内核Flash MCU ，1 Kbytes SRAM ，16 Kbytes Flash ，128 bytes 独立EEPROM ，31通道可低功耗双模触控电路，12位ADC ，1个模拟比较器，LCD/LED Driver ，12位PWM ，3个定时器，乘除法器，UART ，SSI ，Check Sum 校验模块Page 1 of 105 V0.1SinOneSC92F8447B/8446B/8445B1 总体描述SC92F8447B/8446B/8445B （以下简称SC92F844XB ）系列是一颗增强型的超高速1T 8051内核工业级Flash 微控制器，指令系统完全兼容传统8051产品系列。

SC92F844XB 集成有16 Kbytes Flash ROM 、1 Kbytes SRAM 、128 bytes EEPROM 、内置有31路高灵敏度隔空电容触控电路、最多46个 GP I/O 、16个IO 可外部中断、3个16位定时器、17路12位高精度ADC 、1个模拟比较器、8路12位PWM 、IO 驱动分级控制（LED segment 口）、1个16 ×16位硬件乘除法器、内部±1%高精度高频16/8/4/1.33MHz 振荡器和±4%精度低频128K 振荡器、可外接晶体振荡器、UART 等通讯接口等资源。

为提高可靠性及简化客户电路，SC92F844XB 内部也集成有4级可选电压LVR 、2.4V 基准ADC 参考电压、低耗电WDT 等高可靠电路。

SC92F844XB 具有非常优异的抗干扰性能，非常适合应用于各种物联网控制、大小智能家电和智能家居、充电器、电源、航模、对讲机、无线通讯、游戏机等工业控制和消费应用领域。

2 主要功能工作电压：2.4V~5.5V工作温度：-40 ~ 85℃ 封装：SC92F8447B (LQFP48) SC92F8446B (LQFP44) SC92F8445B (LQFP32)内核：超高速的单字节指令 1T 8051Flash ROM ：16 Kbytes Flash ROM （MOVC 禁止寻址0000H~00FFH 的256 bytes ）IAP ：可code option 成0K 、0.5K 、1K 或16KEEPROM ：128 bytes ，无需擦除，10万次写入，10年以上保存寿命SRAM ：内部256 bytes+外部768 bytes+PWM&LCD RAM 44 bytes系统时钟（f SYS ）： ● 内建高频 16MHz 振荡器（f HRC ）● IC 工作的系统时钟，可通过编程器选择设定为：⏹ *********~5.5V⏹8/4/***********~5.5V●频率误差：跨越 (3.0V~5.5V) 及 (-20 ~ 85℃) 应用环境，不超过 ±1%内置低频晶体振荡器电路： ● 可外接32K 振荡器，作为Base Timer 时钟源，可唤醒STOP内建低频 128kHz LRC 振荡器：● 可作为BaseTimer 的时钟源，并唤醒STOP ● 可作为WDT 的时钟源●频率误差： 跨越 (4.0V ~ 5.5V) 及 (-20 ~ 85℃)，频率误差不超过 ±4%低电压复位（LVR ）： ● 复位电压有4级可选： 4.3V 、3.7V 、2.9V 、2.3V● 缺省值为用户烧写Code Option 所选值Flash 烧写和仿真： ● 2线JTAG 烧写和仿真接口。

GPS-721-MRTUGPS Receiver and 1 DO, 1 PPS OutputModuleQuick Start GuideThis manual introduces the user to the methods used to implement the GPS-721-MRTU module into their applications in a quick and easy way, and will only provide basic instructions. For more detailed information, please refer to the GPS-721-MRTU user manual located on the ICP DAS CD-ROM, or download it from the ICP DAS web site:https:///gps_721_mrtu.html1. Pin Assignments and LED IndicatorsPin AssignmentsLED Indicators2. Operation ModesThe back panel of the GPS-721-MRTU contains the frame groundand the INIT/Normal Switch. Themodule has two operation modes(INIT and Normal modes), whichcan be determined via the switchmechanism on the chassis. Thedescription and figure are asfollows.3. Wiring Digital Output WiringPPS WiringMountingThe GPS-721-MRTU can be mounted on either a DIN-Rail or a wall, or it can be piggybacked to other modules using the bottom of the chassis.DIN-Rail MountingThe GPS-721-MRTU includes simple rail clips that allow for for reliable mounting on a standard 35 mm DIN rail.Three new DIN-Rail models are available, and each is made of stainless steel, which is stronger than those made of aluminum. There is a screw at one end, and a ring terminal is included so that it can be easilyconnected to the earth ground.Note: It is recommended that a 16 – 14 AWG wire is used to connect the DIN rail to the earth ground.Piggyback MountingThe GPS-721-MRTU has two holes on either side of the module to enable piggyback mounting. Refer to the figure below for an illustration of how to piggyback the modules.4. Using the ModuleThis section describes the installation of the GPS-721-MRTU, and provides details of how to begin using the module.1. Refer to Section 1 for details of the pin assignments.2. Connect the module to the RS-485 network using the DATA+ and DATA-pins. See Section 1 for details of the pin assignments. If the Host is only equipped with an RS-232 interface, then an RS-232 to RS-485 converter will be required. The GPS-721-MRTU supports RS-232 connections.Refer to the “I-7000 Bus Converter User Manual” for more information.Configure the module by sending the %AANNTTCCFF command. See Section 2.1 of the “GPS-721-MRTU User Manual” for details.ICP DAS provides two free tools that allow the GPS-721-MRTU to beeasily configured, the DCON Utility and the Send232 application, both of which can be downloaded from/pub/cd/8000cd/napdos/driver/dcon_utility/3. All module functions can be implemented using the DCON commandsdescribed in Section 2.4. If the Host is a PC with a Windows operating system installed, the DCONUtility can be used to allow easy configuration and reading of data. The DCON Utility can be downloaded from the ICP DAS website(), and documentation for the DCON Utility can be found in the ”Getting Started For I-7000 Series Modules” manual.Note 1: The DCON Utility is provided to enable commands to be sent to the GPS-721-MRTU. The graphic settings of the GPS-721-MRTU arenot supported by the DCON Utility.Note 2: If GPS-721-MRTU is unable to receive a GPS signal, check the position of the antenna and if the problem persists, try relocating theGPS antenna outside.。

SGM8051/2/4 SGM8053/5250MHz, Rail-to-Rail Output CMOS Operational AmplifierSG Microelectronics Co, LtdELECTRICAL CHARACTERISTICS : V S = +5V (G=+2, R F =887Ω, R L = 150Ω, unless otherwise noted)Specifications subject to change without notice.PACKAGE/ORDERING INFORMATIONMODEL CHANNEL ORDER NUMBER PACKAGEDESCRIPTIONPACKAGE OPTION MARKING INFORMATIONSGM8051XN5/TR SOT23-5 Tape and Reel, 3000 8051 SGM8051 SingleSGM8051XS/TRSO-8 Tape and Reel, 2500 SGM8051XS SGM8052XMS/TRMSOP-8 Tape and Reel, 3000 SGM8052XMS SGM8052 DualSGM8052XS/TR SO-8 Tape and Reel, 2500 SGM8052XSSGM8053XN6/TRSOT23-6Tape and Reel, 30008053SGM8053Single with shutdownSGM8053XS/TR SO-8 Tape and Reel, 2500 SGM8053XS SGM8054XS14 SO-14 Tube, 50 SGM8054XS14 SGM8054XTS14 TSSOP-14 Tape and Reel, 3000 SGM8054XTS14 SGM8054XS/TR SO-16 Tape and Reel, 2500 SGM8054XS SGM8054 QuadSGM8054XTSTSSOP-16 Tape and Reel, 3000 SGM8054XTS SGM8055 Dualwith shutdownSGM8055XMS/TRMSOP-10Tape and Reel, 3000SGM8055XMSABSOLUTE MAXIMUM RATINGSSupply Voltage, V+ to V- ......................................... 7.5 V Common-Mode Input Voltage........................................ (–V S )– 0.5 V to (+V S ) +0.5V Storage Temperature Range ................ –65℃ to +150℃ JunctionTemperature ..............................................................160℃ Operating Temperature Range ........... –55℃ to +150℃ Package Thermal Resistance @ T A = 25℃SOT23-5, θJA ......................................................... 190/W ℃ SOT23-6, θJA ......................................................... 190/W ℃ SO-8, θJA ..................................................................125/W ℃MSOP-8, θJA .......................................................... 216/W ℃ MSOP-10, θJA ........................................................ 216/W ℃ SO-16, θJA ................................................................ 82/W ℃ TSSOP-16, θJA ....................................................... 105/W ℃ Lead Temperature Range (Soldering 10 sec)......................................... 260℃ESD SusceptibilityHBM...........................................................................1000V MM. (400V)NOTES1. Stresses above those listed under Absolute Maximum Ratings may cause permanent damage to the device. This is a stressrating only; functional operation of the device at these or any other conditions above those indicated in the operational section of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.CAUTIONThis integrated circuit can be damaged by ESD. Shengbang Micro-electronics recommends that all integrated circuits be handled with appropriate precautions. Failure to observe proper handling and installation procedures can cause damage.ESD damage can range from subtle performance degradation to complete device failure. Precision integrated circuits may be more susceptible to damage because very small parametric changes could cause the device not to meet its published specifications.TYPICAL PERFORMANCE CHARACTERISTICSAt T A= +25℃, V S = +5V, G = +2, R F= 887Ω, R G = 887Ω, and R L = 150Ωconnected to Vs/2,unless otherwise noted.TYPICAL PERFORMANCE CHARACTERISTICSAt T A = +25℃, V S = +5V , G = +2, R F= 887Ω, R G = 887Ω, and R L = 150Ω connected to Vs/2,unless otherwise noted.Non-Inverting Small Signal Step Response Non-Inverting Large Signal Step ResponseTime(50ns/div) Time(50ns/div)O u t p u t V o l t a g e (50m V /d i v )O u t p u t V o l t a g e (500m V /d i v )Rail-To-RailG = +2 R F = 887ΩR L = 1K Ω4.88V0VTime(200ns/div)TYPICAL PERFORMANCE CHARACTERISTICSAt T A= +25℃, V S = +5V, G = +2, R F= 887Ω, R G = 887Ω, and R L = 150Ωconnected to Vs/2,unless otherwise noted.TYPICAL PERFORMANCE CHARACTERISTICSAt T A= +25℃, V S = +5V, G = +2, R F= 887Ω, R G = 887Ω, and R L = 150Ωconnected to Vs/2,unless otherwise noted.TYPICAL PERFORMANCE CHARACTERISTICSAt T A= +25℃, V S = +5V, G = +2, R F= 887Ω, R G = 887Ω, and R L = 150Ωconnected to Vs/2,unless otherwise noted.APPLICATION NOTESDriving Capacitive LoadsThe SGM805x family is optimized for bandwidth and speed, not for driving capacitive loads. Output capacitance will create a pole in the amplifier’s feedback path, leading to excessive peaking and potential oscillation. If dealing with load capacitance is a requirement of the application, the two strategies to consider are (1) using a small resistor in series with the amplifier’s output and the load capacitance and (2) reducing the bandwidth of the amplifier’s feedback loop by increasing the overall noise gain.Figure 1 shows a unity gain follower using the series resistor strategy. The resistor isolates the output from the capacitance and, more importantly, creates a zero in the feedback path that compensates for the pole created by the output capacitance.V IN V OUTFigure 1. Series Resistor Isolating Capacitive LoadPower-Supply Bypassing and Layout The SGM805x family operates from either a single +2.7V to +5.5V supply or dual ±1.35V to ±2.75V supplies. For single-supply operation, bypass the power supply V DD with a 0.1µF ceramic capacitor which should be placed close to the V DD pin. For dual-supply operation, both the V DD and the V SS supplies should be bypassed to ground with separate 0.1µF ceramic capacitors. 2.2µF tantalum capacitor can be added for better performance.Good PC board layout techniques optimize performance by decreasing the amount of stray capacitance at the op amp’s inputs and output. To decrease stray capacitance, minimize trace lengths and widths by placing external components as close to the device as possible. Use surface-mount components whenever possible.For the high speed operational amplifier, soldering the part to the board directly is strongly recommended. Try to keep the high frequency big current loop area small to minimize the EMI (electromagnetic interfacing).V SSVnVpV SS(GND)Figure 2. Amplifier with Bypass Capacitors GroundingA ground plane layer is important for high speed circuit design. The length of the current path speed currents in an inductive ground return will create an unwanted voltage noise. Broad ground plane areas will reduce the parasitic inductance.Input-to-Output CouplingTo minimize capacitive coupling, the input and output signal traces should not be parallel. This helps reduce unwanted positive feedback.Typical Application Circuits Differential AmplifierThe circuit shown in Figure 3 performs the difference function.If the resistors ratios are equal ( R4 / R3 =R2 / R1 ), then V OUT = ( Vp – Vn ) × R2 / R1 + Vref.VnVp V OUTFigure 3. Differential AmplifierLow Pass Active FilterThe low pass filter shown in Figure 4 has a DC gain of (-R2/R1) and the –3dB corner frequency is 1/2πR2C. Make sure the filter is within the bandwidth of the amplifier. The Large values of feedback resistors can couple with parasitic capacitance and cause undesired effects such as ringing or oscillation in high-speed amplifiers. Keep resistors value as low as possible and consistent with output loading consideration.V INV OUTFigure 4. Low Pass Active Filter Driving VideoThe SGM805x can be used in video applications like in Figure 5.V INR G V OUTG = 1 + R F / R GFigure 5. Typical Video DrivingSOT23-5SOT23-6SO-8MSOP-8MSOP-10SO-14TSSOP-14SO-16TSSOP-16REVISION HISTORYLocation Page 9/05— Data Sheet changed from REV.A to REV.BAdded SGM8055 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . Universal Changes to PRODUCT DESCRIPTION, FEATURES, and PIN CONFIGURATIONS . . . . . . . . . . .. . . . . . . . . . . . .. . 1 Changes to ELECTRICAL CHARACTERISTICS. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . .. .2 Updated PACKAGE/ORDERING INFORMATION. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . .. .3 11/06— Data Sheet changed from REV. B to REV. CChanges to ABSOLUTE MAXIMUM ATINGS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . . . . 3 01/08— Data Sheet changed from REV. C to REV. DAdded SGM8054’s SO-14 and TSSOP-14 Packages. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .. . . . .1, 3, 16, 17SG Microelectronics Co., LtdA2608, NO.72 North RoadXisanhuan, Haidian District,Beijing, China 100037Tel: 86-10-51798160/80Fax: 86-10-51798180-803。

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�电话：（+86）02525--68530188�传真：（+86）02525--68530178�网址：目录目录 (3)第1章NA200PLC概述 (5)1.1NA200PLC的硬件组成 (5)1.1.1CPU模块 (5)1.1.2CPU主要特性 (6)1.1.3扩展模块 (7)1.1.4CPU通用技术指标 (9)1.2工作方式介绍 (9)1.3编程软件介绍 (10)1.4快速应用指南 (11)1.4.1物品清点 (11)1.4.2设备安装接线 (12)1.4.3连接电源线 (12)1.4.4建立PC通讯 (12)1.4.5编写控制程序 (13)1.4.6设备投入运行 (13)第2章安装、拆卸与接线原则 (14)2.1指导原则 (14)2.1.1通风散热 (14)2.1.2功率消耗 (15)2.1.3合理布置电缆 (16)2.2电气安全 (16)2.3NA200小型一体化PLC及扩展模块的安装和拆卸 (16)2.3.1安装方式 (16)2.3.1.1板面安装 (17)2.3.1.2导轨安装 (18)2.3.1.3连接扩展电缆 (19)2.4NA200小型一体化PLC及扩展模块的尺寸结构 (20)第3章CPU模块 (22)3.1外观说明 (22)3.2CPU模块功能简述 (22)3.3使用说明 (23)3.3.1选择CPU的工作方式 (23)3.3.2指示灯定义 (23)3.4通讯功能 (24)3.5特殊I/O接线定义 (25)3.5.1I/O接线定义 (25)3.5.2中断号定义 (26)3.6高速计数输入 (27)3.6.1计数模式 (27)3.6.2计数值范围 (28)3.6.3CR寄存器定义 (28)3.714点CPU模块性能参数 (30)3.7.1性能参数 (30)3.7.2CPU201-1401端子定义与接线 (32)3.7.3CPU201-1402端子定义与接线 (33)3.820点CPU模块性能参数 (35)3.8.1性能参数 (35)3.8.2CPU201-2001端子定义与接线 (37)3.8.3CPU201-2002端子定义与接线 (39)3.924点CPU模块性能参数 (40)3.9.1性能参数 (40)3.9.2CPU201-2401端子定义与接线 (42)3.9.3CPU201-2402端子定义与接线 (44)3.1040点CPU模块性能参数 (45)3.10.1性能参数 (45)3.10.2CPU201-4001端子定义与接线 (47)3.10.3CPU201-4002端子定义与接线 (48)第4章I/O扩展模块 (51)4.1数字量扩展模块 (52)4.1.1数字量输入模块 (52)4.1.2数字量输出模块 (55)4.1.3数字量输入/输出模块 (59)4.2模拟量扩展模块 (61)4.2.1模拟量输入模块 (61)4.2.2温度量输入模块 (65)4.2.3模拟量输出模块 (67)4.2.4模拟量输入/输出模块 (72)4.3通讯扩展模块 (74)A附录订货参数 (78)B附录扩展模块功率 (80)第1章NA200PLC概述作为小型一体化PLC产品，NA200PLC无论是独立运行，还是相互连接构成网络，均可以实现强大而复杂的控制功能。

河南奥威斯科技监控系统方案及报价河南启风电子科技有限公司目录1、公司简介 (3)1.1、关于我们 (3)1.2、组织机构 (3)1.3、主要产品代理 (4)1.4、业务范围 (4)1.5、经营之道 (4)2、设计标准 (5)3、设计原则 (5)4、方案设计 (7)4.1、前端监控点设计 (7)4.2、整体方案设计 (8)4.3、网络带宽设计 (9)5、系统功能及实现 (9)5.1、系统实现架构 (9)5.2、实现原理 (9)6、系统功能 (11)6.1、服务功能 (11)6.2、系统集中管理功能 (11)6.3、C/S客户端功能 (13)6.4、W EB客户端功能 (14)7、系统安全设计 (15)7.1、安全认证 (15)7.2、安全模型 (15)7.3、访问控制策略 (15)7.4、数据完整性保护 (16)7.5、安全审计 (16)8、系统关键技术解决 (16)8.1、系统平台支撑 (16)8.2、系统大数据量接入及存储问题 (17)8.3、系统前端设备远程管理及接入 (17)8.4、系统设备整合 (17)1、公司简介1.1、关于我们河南启风电子科技公司是一家专业从事安防产品、光纤产品、综合布线产品的代理销售和计算机网络系统集成、数字化安防监控工程、楼宇小区智能化工程的综合型发展企业。

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