PD606-E43
PD606
PD606錄音機使用手冊簡要介紹PD606設備組,使用流程及部分常用內設定Computer Center98年11月27日星期五第一版編寫:楊淞婷 98.07 編修:蘇毓珊PD606操作流程:一、 設備說明1. 特色:硬碟式錄音機, FR2的進階錄音機,可同時收錄6軌的聲音(XLR IN),輸出6軌(6軌輸入 8軌記錄,可6軌+2軌立體聲混合記錄。
)2. 儲存方式:內建80GB硬碟、DVD(建議錄音時,將檔案儲存在內建硬碟中等到匯出檔案時再放入光碟燒錄匯出,因其直接儲存在DVD上時燒錄機進行儲存會發出聲音影響收音品質。
)3. 輸出檔案:DVD燒錄、USB2.0匯出。
○1○2○3○4○5○6○7○1背袋○2 FOSTEX PD606主機○3電池直流電供應器DC-IN○4USB2.0傳輸線 (4Æ6pin)○5 Sennheiser HD25耳機(裝在蘋果盒裡) ○6SONY BP-GL65鋰電池充電器○7SONY BP-GL65鋰電池*1二、 錄音程序說明步驟一:選擇供電方式(A ÆDC 直流電或B Æ電池)裝卸電池的方法DC12~24V 直流電源供應安裝時,電池依黑色箭頭方向推入。
卸電池時,將鐵片向內壓電池依紅色箭頭方向拆下。
↑內壓內壓↓→將所需的麥克風插上(以CH1ÆAT815及CH2Æ無線麥克風為例)提供麥克風輸入步驟三: 打開電源由於開關為調撥式扳手,所以只要有確實扳動,即會開關機。
a.檢查上側面板的設定‐將要錄音的軌道調在MIC,沒有錄音的調在LINEb.選擇學校的指向性麥克風要選+48V的供電方式,。
如果使用Mini Mic則要選在DM不供電模式(因為mini mic本身有電池)T12則為另一種供電+12V的模式,現今較少麥克風使用此種設定。
c.可自行選擇是否需要壓低頻或減噪筆記備忘錄:步驟五:a.先把總音量(ST BUS)控制鈕調到5,再將所要開的軌的每軌音量控制鈕調到5b.按下總音量(ST BUS)的READY鈕,紅燈會亮起c.先把READY打開,然後再把PAN打開,將麥克風的音量調至適當位置(一般至少要超過20).調整好以後,將READY跟PAN關掉d.依上述模式調整每一軌麥克風的音量大小e.開始錄音前,記得打開總音量(ST BUS)及所需各軌的READY跟PANf.按下REC鍵,即可開始錄音步驟六:錄音結束,按下PAUSE鍵,即完成一段錄音檔名的設定方式有三種,建議同學以TAKE進行命名的方式,其餘請自行參考原廠說明書。
移动电源BOM
单片机(带软件) Apple 收纳线
USB 收纳线 PCB 电池
贴片电解电容 MicroUSB PCB 电池
PCB 电池
PCB 电池
Diode SMD SS54 5A/40V SMB LED WHITE 3mm LED WHITE 5mm IC FP6291 SOT23-6 MOSFET PMOS SPP3401 SOT-23 MCU HT46R064 NSOP-16(边充边放 SF603) Apple 30-pin cable USB cable PCB FR-4,75*42mm 1.2mm (3200mAh(DC) Rev2) Li-ion polymer 3150mAh(68*50*8) Capacitor SMD 470uF/6.3V 10% D MicroUSB SMD 5P PCB FR-4,58*30mm 1.2mm(6000mAh REV2) Li-ion Polymer 6000mAh(62*53*17) PCB FR-4,37*25mm 1.2mm Li-ion Battery 5600mAh(18650 2Cells) PCB FR-4,60*28mm 1.2mm(8400mAh REV2) Li-ion Battery 8400mAh(18650 3cells)
Bill of Material
Product Model No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 名称 贴片电阻 贴片电阻 贴片电阻 贴片电阻 贴片电阻 贴片电阻 贴片电阻 贴片电阻 贴片电阻 贴片电阻 贴片电阻 贴片电阻 贴片电阻 贴片电阻 贴片电阻 贴片电阻 贴片电阻 贴片电阻 贴片电阻 贴片电阻 贴片电阻 贴片电阻 贴片电阻 贴片电阻 贴片电阻 贴片电阻 贴片电容 贴片电容 规格描述 Resistor SMD 5.1Ω 5% 0805 Resistor SMD 10Ω 5% 0603 Resistor SMD 100Ω 5% 0603 Resistor SMD 330Ω 5% 0603 Resistor SMD 330Ω 5% 0805 Resistor SMD 1KΩ 5% 0603 Resistor SMD 2KΩ 5% 0603 Resistor SMD 3K6Ω 1% 0805 Resistor SMD 5K9Ω 1% 0603 Resistor SMD 4.7KΩ 5% 0603 Resistor SMD 10KΩ 5% 0603 Resistor SMD 11KΩ 1% 0603 Resistor SMD 30KΩ 1% 0805 Resistor SMD 43K2Ω 1% 0603 Resistor SMD 49K9Ω 1% 0603 Resistor SMD 56KΩ 5% 0603 Resistor SMD 75KΩ 1% 0603 Resistor SMD 100KΩ 5% 0603 Resistor SMD 100KΩ 1% 0603 Resistor SMD 200KΩ 5% 0603 Resistor SMD 220KΩ 5% 0805 Resistor SMD 1MΩ 5% 0603 Resistor SMD 2.2MΩ 5% 1206 Resistor SMD 0.1Ω 1% 1206 Resistor SMD 1.3Ω 1% 1206 Resistor SMD 6K7 Ohms 1% 0603 Capacitor SMD 330pF/50V 10% 0603 Capacitor SMD 0.1uF/50V 10% 0603 数量 1
Richtek技术有限公司 RTQ9728W 电源分布切换电路 IC 说明书
RTQ9728W®©Copyright 2023 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Precision Adjustable Current-Limited Power-Distribution SwitchesGeneral DescriptionThe RTQ9728W is a cost effective, low voltage, P-MOSFET power switch IC with an adjustable current-limit feature. Low on-resistance (120m Ω typ.) and low supply current (120μA typ.) are designed in this IC.The RTQ9728W can offer an adjustable current-limit threshold between 0.1A and 2.5A (typ.) via an external resistor. The ±10% current-limit accuracy can be realized for all current-limit settings.The RTQ9728W is an ideal solution for power supply applications since it is functional for various current-limit requirements. It is available in WDFN-6SL 2x2 and SOT-23-6 packages.Features●Adjustable Current Limit : 0.1A to 2.5A (typ.)●±10% Current-Limit Accuracy @2A Over Temperature●150m Ω (max) P-MOSFET ●Low Supply Current : 120μA●Input Operating Voltage Range : 2.5V to 6V ●Reverse Input-Output Voltage Protection ●Built-in Soft-Start●15-kV ESD Protection per IEC 61000-4-2 (With External Capacitance)●Nemko Approved IEC62368-1●RoHS Compliant and Halogen FreeApplications●Digital TVs ●Set Top Boxes ●VOIP PhonesOrdering InformationNote :***Empty means Pin1 orientation is Quadrant 1Richtek products are :❝ RoHS compliant and compatible with the current require-ments of IPC/JEDEC J-STD-020.❝ Suitable for use in SnPb or Pb-free soldering processes.Package TypeQW : WDFN-6SL 2x2 (W-Type) E : SOT-23-6RTQ9728WLead Plating SystemG : Green (Halogen Free and Pb Free)Pin 1 Orientation ***(2) : Quadrant 2, Follow EIA-481-DRTQ9728W©Copyright 2023 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Typical Application CircuitNote : R ILIM = 13k Ω for 2A Power Switch OperationPin Configuration(TOP VIEW)WDFN-6SL 2x2VIN GND ENMarking Information4W : Product CodeW : Date CodeSOT-23-6FAULTVUSB PortRTQ9728WGQW7K= : Product CodeDNN : Date CodeRTQ9728WCopyright 2023 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.RTQ9728W©Copyright 2023 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Functional Block DiagramOperationThe RTQ9728W is a current-limited power switch using P-MOSFETs for applications where short-circuit or heavy capacitive loads will be encountered. These devices allow users to adjust the current-limit threshold between 100mA and 2.5A (typ.) via an external resistor. Additional device shutdown features include over-temperature protection and reverse-voltage protection.The RTQ9728W provides built-in soft-start function. The driver controls the gate voltage of the power switch. The driver incorporates circuitry that controls the rising time and falling time of the output voltage to limit large inrush current and voltage surges. The RTQ9728W enters constant-current mode when the load exceeds the current-limit threshold.RTQ9728W©Copyright 2023 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Electrical CharacteristicsAbsolute Maximum Ratings (Note 1)●Voltage Range On VIN, VOUT , EN, FAULT , ILIM ------------------------------------------------------------------ −0.3V to 6.5V <10ms ---------------------------------------------------------------------------------------------------------------------- −0.3V to 7V ●Power Dissipation, P D @ T A = 25°CSOT-23-6-------------------------------------------------------------------------------------------------------------------0.48W WDFN-6SL 2x2-----------------------------------------------------------------------------------------------------------2.98W●Package Thermal Resistance (Note 2)SOT-23-6, θJA -------------------------------------------------------------------------------------------------------------208.2°C/W WDFN-6SL 2x2, θJA -----------------------------------------------------------------------------------------------------33.5°C/W WDFN-6SL 2x2, θJC -----------------------------------------------------------------------------------------------------8.5°C/W ●Lead Temperature (Soldering, 10 sec.)-----------------------------------------------------------------------------260°C ●Junction T emperature ---------------------------------------------------------------------------------------------------150°C●Storage Temperature Range ------------------------------------------------------------------------------------------- −65°C to 150°C ●ESD Susceptibility (Note 3)HBM (Human Body Model)--------------------------------------------------------------------------------------------2kV CDM (Charged Device Model)-----------------------------------------------------------------------------------------500V IEC 61000-4-2 Contact Discharge (Note 7)-----------------------------------------------------------------------8kV IEC 61000-4-2 Air-Gap Discharge (Note 7)-----------------------------------------------------------------------15kVRecommended Operating Conditions (Note 4)●Supply Input Voltage, VIN ----------------------------------------------------------------------------------------------2.5V to 6V●T emperature Range Junction ------------------------------------------------------------------------------------------ −40°C to 125°CRTQ9728W©Copyright 2023 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Note 1. 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 may affect device reliability.Note 2. θJA is measured under natural convection (still air) at T A = 25°C with the component mounted on a high effective-thermal-conductivity four-layer test board on a JEDEC 51-7 thermal measurement standard. θJC is measured at the exposed pad of the package. The PCB copper area with exposed pad is 70mm 2.Note 3. Devices are ESD sensitive. Handling precautions are recommended.Note 4. The device is not guaranteed to function outside its operating conditions.Note 5. Guarantee by design.Note 6. Test Circuit and Voltage WaveformsNote 7. Surges per EN61000-4-2. 1999 applied to output terminals of EVM. These are passing test levels, not failure threshold.V ENVRTQ9728W©Copyright 2023 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Current Limit vs. Temperature1.71.81.92.02.12.2-50-25255075100125Temperature (°C)C u r r e n t L i m i t (A)Shutdown Current vs. Temperature01234-50-25255075100125Temperature (°C)S h u t d o w n C u r r e n t (µA )Quiescent Current vs. Input Voltage5070901101301501701902.533.544.555.5Input Voltage (V)Q u i e s c e n t C u r r e n t (µA )Shutdown Current vs. Input Voltage0123452.533.544.555.5Input Voltage (V)S h u t d o w n C u r r e n t (µA )Typical Operating CharacteristicsQuiescent Current vs. Temperature8090100110120130140150-50-25255075100125Temperature (°C)Q u i e s c e n t C u r r e n t (µA )On-Resistance vs. Temperature025*******125150-50-25255075100125Temperature (°C)O n -R e s i s t a n c e (m)ΩRTQ9728W©Copyright 2023 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Short Circuit ProtectionTime (2.5ms/Div)V OUT (5V/Div)I IN (2A/Div)From 2A to Short CircuitV IN = 5V, C OUT = 150μF, R ILIM = 13k ΩShort Circuit ProtectionTime (2.5ms/Div)V IN = 5V, C OUT = 150μF, R ILIM = 13k ΩV OUT (5V/Div)I IN(2A/Div)From Short Circuit to 2AUVLO vs. Temperature1.01.21.41.61.82.02.22.42.62.83.0-50-25255075100125Temperature (°C)U V L O (V)EN Threshold vs. Temperature0.500.700.901.101.301.50-50-25255075100125Temperature (°C)E N T h r e s h o l d V o l t a g e (V)Time (1ms/Div)Power On from EN V IN = 5V, C OUT = 100μF, R ILIM = 13k Ω, R OUT = 5ΩV OUT (2V/Div)V EN (5V/Div)I IN (2A/Div)V IN (5V/Div)Time (1ms/Div)Power Off from ENV IN = 5V , C OUT = 100μF, R ILIM = 13k Ω, R OUT = 5ΩV OUT (2V/Div)V EN (5V/Div)I IN (2A/Div)V IN (5V/Div)RTQ9728W©Copyright 2023 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Current Limit Threshold vs. (V IN - V OUT )2004006008001000V IN - V OUT (mV)From 0A to Short CircuitTime (2.5ms/Div)Short Circuit ProtectionV OUT (5V/Div)I IN (1A/Div)V IN = 5V , C OUT = 150μF, R ILIM = 13kΩTime (2.5ms/Div)Short Circuit ProtectionV OUT (5V/Div)I IN (1A/Div)V IN = 5V , C OUT = 150μF, R ILIM = 13k ΩFrom Short Circuit to 0ACurrent Limit Threshold vs. (V IN - V OUT )20040060080010001200140016001800200022002004006008001000V IN - V OUT (mV)C u r r e n t L i m i t T h r e s h o l d (m A )Current Limit Threshold vs. R ILIM0204060801001201401602004006008001000V IN - V OUT (mV)S t a t i c D r a i n -S o u r c e C u r r e n t (m A )Time (5μs/Div)V OUT(2V/Div)I OUT (5A/Div)V IN = 5V, C OUT = 100μFRTQ9728W©Copyright 2023 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.The RTQ9728W is a single P-MOSFET high side power switch with active high enable input, optimized for self-powered and bus-powered Universal Serial Bus (USB)applications. The switch's low R DS(ON) meets USB voltage drop requirements and a flag output is available to indicate fault conditions to the local USB controller.Current Limiting and Short Circuit Protection When a heavy load or short circuit situation occurs while the switch is enabled, large transient current may flow through the device. The RTQ9728W includes a current-limit circuitry to prevent these large currents from damaging the MOSFET switch and the hub downstream ports. The RTQ9728W provides an adjustable current-limit threshold between 0.1A and 2.5A (typ.) via an external resistor, R ILIM , between 10k Ω and 226k Ω. The maximum −100mA fault flag assertion offset needs cautions,especially for very low ILIM applications. Taking the application of ILIM = 250mA as an example, the minimum fault flag assertion level might be 150mA (40% error versus its target).Once the current-limit threshold is exceeded,and output voltage does not drop over 1/2 input voltage,the device enters constant current mode.If output voltage drops under around 1/2 input voltage, the device enters re-soft start current fold-back mode until either thermal shutdown occurs or the fault is removed.Table1 shows a recommended current-limit value vs. R ILIM resistor.Figure 1. Current-Limit Threshold vs. R ILIMCurrent-Limit Threshold vs. R ILIM025050075010001250150017502000225025001030507090110130150170190210230R ILIM - Current-Limit Resistor (k Ω)C u r r e n t -L i m i t (m A )Application InformationDSQ9728W-07 February 2023©Copyright 2023 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.©Copyright 2023 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Fault FlagThe RTQ9728W provides a FAULT signal pin which is an N-Channel open-drain MOSFET output. This open-drain output goes low when current exceeds current-limit threshold. The FAULT output is capable of sinking a 1mA load to typically 180mV above ground. The FAULT pin requires a pull-up resistor ; this resistor should be large in value to reduce energy drain. A 100k Ω pull-up resistor works well for most applications. In case of an over-current condition, FAULT will be asserted only after the flag response delay time, t D , has elapsed. This ensures that FAULT is asserted upon valid over-current conditions and that erroneous error reporting is eliminated. For example,false over-current conditions may occur during hot-plug events when extremely large capacitive loads are connected, which induces a high transient inrush current that exceeds the current limit threshold. The FAULT response delay time, t D , is typically 7.5ms.Supply Filter/Bypass CapacitorA 10μF low-ESR ceramic capacitor connected from VIN to GND and located close to the device is strongly recommended to prevent input voltage drooping during hot plug events. However, higher capacitor values may be used to further reduce the voltage droop on the input. Without this bypass capacitor, an output short may cause sufficient ringing on the input (from source lead inductance) to destroy the internal control circuitry. Note that the input transient voltage must never exceed 6V as stated in the Absolute Maximum Ratings.Output Filter CapacitorStandard bypass methods should be used to minimize inductance and resistance between the bypass capacitor and the downstream connector to reduce EMI and decouple voltage droop caused by hot-insertion transients in downstream cables. Ferrite beads in series with VBUS,the ground line and the bypass capacitors at the power connector pins are recommended for EMI and ESD protection. The bypass capacitor itself should have a low dissipation factor to allow decoupling at higher frequencies.For commercial applications where the ambient temperature is 0°C to 70°C (such as a PC or USB hub),RTQ9728W supports an output capacitor range of up to120μF. For industrial applications with an ambient temperature of −40°C~125°C, please limit the output capacitance to less than 50uF to ensure normal startup.Chip Enable InputThe RTQ9728W do not have auto discharge function.During shutdown condition, the supply current is 1μA,typically. The maximum guaranteed voltage for a logic-low at the EN pin is 0.4V. A minimum guaranteed voltage of 1.2V at the EN pin will turn on the RTQ9728W. Floating the input may cause unpredictable operation.Under-Voltage LockoutUnder-Voltage Lockout (UVLO) prevents the MOSFET switch from turning on until input voltage exceeds approximately 2.3V (typ.). If input voltage drops below approximately 2.1V (typ.), UVLO turns off the MOSFET switch.Thermal ConsiderationsThe junction temperature should never exceed the absolute maximum junction temperature T J(MAX), listed under Absolute Maximum Ratings, to avoid permanent damage to the device. The maximum allowable power dissipation depends on the thermal resistance of the IC package, the PCB layout, the rate of surrounding airflow,and the difference between the junction and ambient temperatures. The maximum power dissipation can be calculated using the following formula :P D(MAX) = (T J(MAX) − T A ) / θJAwhere T J(MAX) is the maximum junction temperature, T A is the ambient temperature, and θJA is the junction-to-ambient thermal resistance.For continuous operation, the maximum operating junction temperature indicated under Recommended Operating Conditions is 125°C. The junction-to-ambient thermal resistance, θJA , is highly package dependent. For a SOT-23-6 package, the thermal resistance, θJA , is 208.2°C/W on a standard JEDEC 51-7 high effective-thermal-conductivity four-layer test board. For a WDFN-6SL 2x2package, the thermal resistance, θJA , is 33.5°C/W on a standard JEDEC 51-7 high effective-thermal-conductivity four-layer test board. The maximum power dissipation atDSQ9728W-07 February 2023©Copyright 2023 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.T A = 25°C can be calculated as below :P D(MAX) = (125°C − 25°C) / (208.2°C/W) = 0.48W for a SOT-23-6 package.P D(MAX) = (125°C − 25°C) / (33.5°C/W) = 2.98W for a WDFN-6SL 2x2 package.The maximum power dissipation depends on the operating ambient temperature for the fixed T J(MAX) and the thermal resistance, θJA . The derating curves in Figure 2 allows the designer to see the effect of rising ambient temperature on the maximum power dissipation.Figure 2. Derating Curve of Maximum Power Dissipation0.00.51.01.52.02.53.03.5255075100125Ambient Temperature (°C)M a x i m u m P o w e r D i s s i p a t i o n (W )©Copyright 2023 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology yout ConsiderationFollow the PCB layout guidelines for optimal performance of the device.❝Place the R ILIM resistor as close to the device as possible to reduce parasitic effects on the current limit accuracy.❝For better thermal performance, design a wide and thick plane for PCB ground or add sufficient vias to GND plane.An example of PCB layout guide is shown in Figure 3 and Figure 4.Figure 3. PCB Layout Guide for WDFN-6SL 2x2Figure 4. PCB Layout Guide for SOT-23-6DSQ9728W-07 February 2023©Copyright 2023 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Outline DimensionA1HSOT-23-6 Surface Mount PackageW-Type 6SL DFN 2x2 Package©Copyright 2023 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.DSQ9728W-07 February 2023©Copyright 2023 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.Footprint InformationRichtek Technology Corporation14F, No. 8, Tai Yuen 1st Street, Chupei CityHsinchu, Taiwan, R.O.C.Tel: (8863)5526789Richtek products are sold by description only. Richtek reserves the right to change the circuitry and/or specifications without notice at any time. Customers should obtain the latest relevant information and data sheets before placing orders and should verify that such information is current and complete. Richtek cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Richtek product. Information furnished by Richtek is believed to be accurate and reliable. However, no responsibility is assumed by Richtek or its subsidiaries for its use; nor for any infringements of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of Richtek or its subsidiaries.DSQ9728W-07 February 2023©Copyright 2023 Richtek Technology Corporation. All rights reserved. is a registered trademark of Richtek Technology Corporation.。
优恩半导体ESD静电保护器目录表
Part Number (Reference) ESD3.3V52D-A ESD05V52D-A ESD08V52D-A ESD12V52D-A ESD15V52D-A ESD24V52D-A ESD05V52D-C ESD12V52D-CInternal ConfigurationVrwm(V) 3.3 5 8 12 15 24 5 9Vbrmin(V)CJMAX 1MHz(pF) 200 110 70 60 50 25 10 5 450 200 30 100 75 50Peak Power Ir@Vrwm 8/20 µ s (µA) 120 120 120 120 120 120 100 100 320 320 100 320 320 320 200 5 5 5 5 5 1 1 40 10 1 1 1 1SOD-5234 6 8.5 13.3 16.6 26.7 6 10.2 4 6 6 13.3 16.7 26.7SOD-523 ESD03V32D-C ESD05V32D-C ESD0501V32D-C ESD12V32D-C ESD15V32D-C ESD24V32D-C 3 5 5 12 15 24SOD-323ESD3.3V32D-LA ESD05V32D-LA SOD-323 ESD03V32D-LC ESD05V32D-LC ESD08V32D-LC ESD12V32D-LC ESD15V32D-LC ESD24V32D-LC3.3 5.04 60.4 0.4350 35020 5SOD-3233.0 5.0 8.0 12.0 15.0 24.04.0 6.0 8.5 13.3 16.7 26.71.2 1.2 1.2 1.2 1.2 1.2350 350 350 350 350 35020 5 2 1 1 1ESD05V14TLC SOT-1435.06.01.23005Part Number (Reference) ESD03V23T-2A ESD05V23T-2A ESD05V23T-2AL ESD08V23T-2A ESD12V23T-2A ESD15V23T-2A ESD24V23T-2A ESD36V23T-2AInternal ConfigurationVrwm(V) 3.3 5.0 5.0 8.0 12.0 15.0 24.0 36.0Vbrmin(V)CJMAX 1MHz(pF) 400 300 30 250 150 100 88 60Peak Power Ir@Vrwm 8/20 µ s (µA) 300 300 100 300 300 300 300 300 100 10 0.1 1 1 1 1 1SOT-234.0 6.0 6.0 8.5 13.3 16.7 26.7 40.0ESD05V23T-2L SOT-23 Pin 3 to Pin1/Pin2 SM712 Pin 3 to Pin1/Pin2 ESD3.3V23T-1A ESD05V23T-1A ESD08V23T-1A ESD12V23T-1A ESD15V23T-1A ESD24V23T-1A ESD36V23T-1A SOT-235.06.01350177.555400107 3.3 5.0 8.0 12.0 15.0 24.0 36.013.3 4.0 6.0 8.5 13.3 16.7 24.0 40.055 5 5 5 5 5 5 5400 500 500 500 500 500 500 5001 40 5 5 1 1 1 1SOT-23SLVU2.8 SOT-232.83.034001ESD05V26T-4 SOT-265.06.01.23501Part Number (Reference) ESD05V26T-4L ESD12V26T-4L ESD15V26T-4L ESD24V26T-4LInternal ConfigurationVrwm(V)Vbrmin(V)CJMAX 1MHz(pF) 200 90 70 50Peak Power Ir@Vrwm 8/20 µ s (µA) 350 350 350 350 5 1 1 15.0 12.0 15.0 24.0 SOT-266.0 13.3 16.7 26.7ESD05V26T-5L ESD12V26T-5L ESD15V26T-5L ESD24V26T-5L SOT-265.0 12.0 15.0 24.06.0 13.3 16.7 26.7200 90 70 50350 350 350 3505 1 1 1ESD05V36T-4L SOT-3635.06.021501ESD05V36T-5L SOT-3635.06.0501001ESD05V56T-2L SOT-5635.06.00.9501ESD05V56T-4L SOT-5635.06.0301001ESD05V56T-5L SOT-5635.06.0301001Part Number (Reference)Internal ConfigurationVrwm(V)Vbrmin(V)CJMAX 1MHz(pF)Peak Power Ir@Vrwm 8/20 µ s (µA)ESD12V56T-2C SOT-5639.010.031001SLVU2.8-4 SO-082.83.024005SLVU2.8-8 SO-08 ESD06V08S-4L SO-082.83.0560056.06.825200020ESD05V08S-4L SO-08 LCDA05C-4 LCDA12C-4 LCDA15C-4 LCDA24C-45.06.0550010SO-085.0 12.0 15.0 24.06.0 13.3 16.7 26.75 5 5 5500 500 500 50020 1 1 1LCDA05C-8 LCDA12C-8 LCDA15C-8 LCDA24C-8 SO-165.0 12.0 15.0 24.06.0 13.3 16.7 26.75 5 5 5500 500 500 50020 1 1 1Part Number (Reference)Internal ConfigurationVrwm(V)Vbrmin(V)CJMAX 1MHz(pF)Peak Power Ir@Vrwm 8/20 µ s (µA)ESD05VDFN-C DFN10065.06.0101001ULC0524P DSON-105.06.00.81501ULC0528P5.06.50.52000.5MSOP-08ESD05V10S-4L MSOP-105.06.00.51251Cell Phone CCD Camera LinesEE0504K LWSON-085.06.020Color LCD Protection Clamshell Cell Phones0.5Cell Phone CCD Camera LinesESD0506K5.06.020Color LCD Protection Clamshell Cell Phones0.5LWSON-12Part Number (Reference)Internal ConfigurationVrwm(V)Vbrmin(V)CJMAX 1MHz(pF)Peak Power Ir@Vrwm 8/20 µ s (µA)Cell Phone CCD Camera LinesEE0508K5.06.020Color LCD Protection Clamshell Cell Phones0.5LWSON-16EE0508DFN5.06.0171DFN3014Differential Mode vs. Common Mode4345256162 of 211232011/3/31Curves of CharacterizationBAV99 vs TVS ARRAYS直接將突波導入到 Vcc -- 這種方式非 非 常不安全, 易導致 Vcc損害.直接將突波導入到 GND -- 這種方式非 非 常安全. 因為接地 區域有較大阻抗可 以分散突波.4 of 212011/3/31Parasitic InductanceESD ProtectorESD Protector不妥當的方式 : 無法將保護元件直接貼 在信號線上. 會產生寄 生電感. 造成保護能力 被寄生的電感減弱.安全的方式 : 將保護元件直接貼在信 號線上. 讓保護能力全 力發揮.Fine Layout vs Parasitic InductanceFine Layout -- Without Parasitic InductanceNOT recommation -- Parasitic Inductance7 of 212011/3/31Anti-Parasitic Inductance直接將保護ESD保護能力元件貼在信號線上--不會產生寄生電感問題.可以完全發揮8 of 212011/3/31Anti-Parasitic Inductance3-PIN產品的應用9 of 212011/3/31USB 3.0 Interface ProtectionMSOP-0810 of 212011/3/31HDMI Interface ProtectionSLP2510P8(2.5x1.0x0.5mm)11 of 212011/3/31USB 3.0 Interface Protection12 of 212011/3/31GR-1089 Lighting Protection for T-Carrier Interface13 of 212011/3/3110/1000 Gigabit Ethernet Protection14 of 212011/3/31。
复位IC,电源管理IC系列,替代型号及参数
复位IC,电源管理IC系列,替代型号及参数复位ICPJ809 series(2.63/2.93/3.08/4.0/4.38/4.63V)PJ810 series(2.63/2.93/3.08/4.0/4.38/4.63V)PJ705/706/707/708/813EL Driver ICPJ6540C(驱动面积20-40 CM2)PJ6540S(驱动面积20-40 CM2)PJ6540TS(驱动面积20-40 CM2)PJ6543S/TS(驱动面积50-100 CM2)高电压检测ICPJ6101C/NXXXMR series(1.1-6.0V,每隔0.1有型号)LCD Driver ICSC1904(驱动点数19X4)SC1621(驱动点数32X4)SC1621(驱动点数32X4)SC1622(驱动点数32X8)SC1622(驱动点数32X8)SL4808(驱动点数48X8)SC1626(驱动点数48X16)SC1626(驱动点数48X16)SC6523(驱动点数52X3)PJ8566S(驱动点数32X4)小功率AB类音频放大ICPJ4890(1W)PJ4990(1.25W)PJ4871(1.5W)PJ4871(PP)(底部带散热片,1.5W)TDA2822(12V,2X1W)PJ2822(12V,2X1W)TDA2822(9V,2X1W)PJ2822(9V,2X1W)TDA2822(6V,2X1W)LM386中功率AB类音频放大ICPJ4888(2X2.1W,带3D混响功能和立体声耳机功能)PJ4818(2X2.2W,带立体声耳机功能)PJ4088(2X2.2W,带立体声耳机功能)PJ4863MTE(2X2.2W)PJ4863S/P(2X2.2W)CSC4863S(2X2.2W)TEA2025(12V,2X2.5W)TEA2025(9V,2X2.5W)PJ4836(2X2W,带重低音)PJ4836(2X2W,带重低音)TDA7496(2X2W)D1517P(2X4W)TA8227(2X3W)KA2206(2X2.3W)APA2068((2X2.6W,带音量控制,底部带散热片)大功率AB类音频放大ICTDA2030A(18W)LM1875T/L(20W)TDA7265(2X25W)YD7377(2X30W或4X6W)D类音频放大ICPJ2005(1.4W,单声道,D类音频放大)PJ2010(1.3W,单声道,D类音频放大)TPA2012D2(2X1.4W,立体声,D类音频放大)PJ2012(2X1.5W,立体声,D类音频放大)AX2012(2X1.4W,立体声,D类音频放大)PJ8008(2X1.5W,立体声,D类音频放大)耳机音频放大ICPJ4800(2X290mW,立体声耳机放大IC)PJ4808(2X105mW,立体声耳机放大IC)PJ4809(2X105mW,高电平关断,立体声耳机放大IC)PJ8608(2X105mW,立体声耳机放大IC)PJ4880(2X250mW,立体声耳机放大IC)PJ7000(2X40mW,立体声耳机放大IC)LM4853M(2X300mW立体声耳机放大或1.5W单声道耳机放大 IC)全差分AB类音频放大ICPJ4898(全差分,1W)PJA6211(全差分,1.25W)PJA6203(全差分,1.25W)音量音质处理ICCSC2313(三组立体声输入音质处理IC,6V-10V.)CSC2314(四组立体声输入音质处理IC,6V-10V.)D2322(6通道AV前置控制IC,5-12V.)D2323(6通道音响输入选择IC,4.5-12V.)CSC2256(双声道音量控制IC,2.5V-12V.)PT2258(六声道音量控制IC,5V-10V.)M62429(双声道音量控制IC,5V.)TC9153(音量控制IC,4.5-12V.)混响处理ICCD2399单片调频调幅收音ICCD9088(单片电调谐调频收音IC)CD1191(单片调频调幅收音IC)TA2003(单片调频调幅收音IC)YT2111(单片调频调幅立体声收音IC)YD2149(单片调频调幅收音IC/3V工作)并联白灯背光ICPJ7110(并3路白灯,每路20mA)PJ7111(并4路白灯,每路20mA)PJ5920(并3路白灯,每路20mA)PJ5921(并4路白灯,每路20mA)PJ9300(并4路白灯,每路20mA)PJ3200(并5路白灯,每路20mA)PJ2133(并4路白灯,每路可达30mA)PJ60230(并5路白灯,每路可达30mA)PJ9364(并4路白灯,每路可达20mA)PJ9362(并4路白灯,每路可达30mA)PJ9360(并4路白灯,每路可达30mA)PJ3114(并6路白灯,每路20mA)霍尔ICPJ90248S/TPJ177A/B/CPJ1881S/TPJ732S/TPJ211A/B/CTPJ41S/TPJ49ETPJ40APJ5881PJ3144RS232接口ICMAX232锂电保护ICPJ5426AB(4.3V过充保护电压)PJ5426BB(4.28V过充保护电压)PJ2188(4.3V过充保护电压,内置MOS的2合1锂电保护IC)锂电保护板所用MOS管PJ9926SPJ9926TPJ8205T(新版样品)PJ8205MR(新版样品)PJ5N20VPJ8810TPJ8810MRPJ8822TPJ8822MRPJ8818TPJ8818MRPJ8820MRPJ8208PJ6968PJ8209MR单节锂电充电ICPJ4054MR(800mA)PJ4054DR(800mA)PJ4054PR(1A)PJ4056MR(800mA,带双灯指示功能)PJ4060C(250mA,双灯指示功能,其中一个灯为七彩灯指示) PJ4060D(250mA,双灯指示功能)PJ4050S(500mA)PJ2051S(1A)PJ4100(1A)VM7205M/S(1A,须外接场效应管)PJ9501A/B(1A,须外接场效应管,B:4.2V,A:4.1V,一般推B版的)单节锂电/镍氢电池/铅酸电池线性充电ICPJ4062S(500mA,4.2V充满,充电电压可调,也可充镍氢/铅酸电池) PJ4066(1A,4.2V充满,充电电压可调,也可充镍氢/铅酸电池)单节磷酸铁锂电/镍氢电池/铅酸电池线性充电ICPJ4058S(500mA,3.6V充满,充电电压可调,也可充镍氢/铅酸电池) PJ4059(1A,3.6V充满,充电电压可调,也可充镍氢/铅酸电池)开关电源绿色模式PWM控制ICPJ6848M/PPJ6850M/P/SPJ6853M/PPJ6842M/P/SPJ6860(15W)PJ2530A(5W)PJ2603P(6W,内置700V三极管)PJ2604P(6W-8W,内置700V三极管)PJ2605S(3.8W-4.5W,内置700V三极管)PJ2607P(18W,须外加高压功率三极管)PJ8022P(20W以下,内置700VMOS管,输入电压9-38V,耐压50V) PJ8012P(13W以下,内置730VMOS管,输入电压10-39V,耐压50V) PJ1203(5-120W,输入电压耐压16V)I2C实时时钟/日历ICPJ8563S/P/T/MPJ1302S/PAM/FM 频率显示驱动ICSC3610SC3610D马达驱动ICD5898(PDVD 含双路DC-DC 4通道马达驱动IC)D5668(DVD 5通道马达驱动IC)D5868(DVD 5通道马达驱动IC)D5888(DVD 5通道马达驱动IC)D5954(DVD/PDVD/Car DVD/CD机 4通道马达驱动IC)D9258(DVD/PDVD/Car DVD/CD机 4通道马达驱动IC)D9259(DVD/PDVD/Car DVD/CD机 5通道马达驱动IC)YT5901(CD机4通道马达驱动IC)PJ6651AN6650(马达稳速IC)PJ7010R(马达正反转控制驱动IC,1-2A驱动电流)PJ9110(马达正反转控制驱动IC,0.8A驱动电流)PJ9120(马达正反转控制驱动IC,3A驱动电流,须加三级管扩流) PJ9130(直流马达正反转及加速驱动IC,3A驱动电流,须加三级管扩流)锁相环ICAT9256AT9257LC72131电阻式触摸屏控制ICPJ2046PJ2003电容式触摸按键ICTF601(6键输入,工作电压2.5-5.5V)TF401(4键输入,工作电压2.5-5.5V)TF201(2键输入,工作电压2.5-5.5V)TF101(1键输入,工作电压2.5-5.5V)通用运算放大器ICLM324S(四运放/32V)LM324P(四运放/32V)LM324S(四运放/18V)LM324P(四运放/18V)LM358S/P(双运放)JRC4558(双运放)低压运算放大器ICPJ3414(双运放)PJ4510(双运放)PJ2107(单运放)低压低功耗运算放大器ICS324(四运放)S358(双运放)低噪声低失真运算放大器ICPJ4580(双运放)PJ4560(双运放)PJ2568(双运放)大电流运算放大器ICPJ4556(双运放)高带宽高转换速率运算放大器ICPJ2137(双运放)低漂移高精度运算放大器ICOP07(单运放)中频接收ICMC3361通话免提ICMC34018PJ34118PJ34119通话话音网络ICTEA1062/A(A:低电平静噪)压扩电路ICTA31101F(语音压扩电路IC)SL5015(压扩电路IC)SL5020(低压压扩电路IC)DC DC变换ICPJ34063A(1.5A)MC34063B(0.8A)PJ34063(0.8A)三端可调正电源稳压ICLM317L(100mA)LM317T(1.5A)电流型PWM控制ICKA3842S/PKA3843S/P固定频率PWM控制ICKA7500PKA7500STL494PTL494SPJ9741电压比较器ICLM339S(4电压比较器)LM339P(4电压比较器)LM393S/P(双电压比较器)LED显示屏驱动ICPJ62726SS/SO/SP(16位恒流LED驱动IC,每路输出4-90mA) PJ6024(16位恒流LED驱动IC,每路输出3-45mA)LED数码管显示驱动IC(移位寄存器IC)PJ74HC164PJ74HC164PJ74HC595门电路ICPJ74HC244(8路3态缓冲驱动IC)PJ74HC04(六反相器IC)PJ74HC14(六反相施密特触发器IC)SC74HC245(总线驱动双向三态门电路IC)SC74HC138(3-8译码器IC)SC74HC27(四总线收发器IC)SC74HC373(八D锁存器IC)SC74HC393(双4位二进制计数器IC)TFT-LCD 时序控制ICPVI1004DTFT-LCD 信号处理ICD3031LCD视频切换开关ICPI5V330定时器ICNE555立体声D/A转换ICPJ433416位音频D/A转换ICPJ8211CCFL冷光阴极灯控制ICPJ3105恒流恒压控制ICPJ1051MR2A DDR 电源ICPJ9174七路达林顿驱动器阵列ULN2003(七路达林顿驱动器阵列,最大驱动电流可达500MA) ULN2003(七路达林顿驱动器阵列,最大驱动电流可达500MA)模拟开关ICPJ3157(高速单刀双掷模拟开关IC)电源开关ICPJ9701双卡控制ICPJ6188(SPI接口双卡控制IC)4路ESD保护ICPJ3205MRSOT23SOT23SOP8/DIP8 DiceSOP8TSSOP8SOP8/TSSOP8 SOT23DiceDiceSSOP48DiceQFP64DiceDiceQFP100QFP64/LQFP64 LQFP44 MSOP8SMD9(=CSP9) SOP8/DIP8 SOP8(PP)DIP8SOP8DIP8SOP8SOP8/DIP8 SOP8/DIP8 QFN24QFN24QFN16 TSSOP20(PP) SOP16/DIP16 SOP16WSOP16/DIP16 SOP16/DIP16 TSSOP28(PP) HSOP28DIP20/SOP20 DIP18FDIP12SOP16-PPHZIP5TO-220B-5/TO-220-5HZIP11ZIP15QFN8/MSOP8SMD9(=CSP9)/QFN8(=DFN8)QFN20/WCSP16QFN20/WCSP16SOP16WTSSOP20SOP8MSOP8MSOP8SOP8SOP8/DIP8SSOP10MSOP10MSOP10/SMD9(=CSP9)MSOP8/SMD9(=CSP9)SMD9(=CSP9)/QFN8(=DFN8)/MSOP8 SOP28/DIP28SOP28/DIP28SOP28/DIP28SOP28/DIP28SOP16/SOP16WDIP20SOP8/DIP8DIP16DIP16/SOP16SOP16SOP28DIP16/SSOP16SDIP24/SSOP24SDIP24/SSOP24SOT-26MSOP8MSOP8SOT-26SOT-26QFN16QFN16QFN16QFN16QFN16QFN16SOT-23/TO-92 SOT-23/TO-92 SOT-23/TO-92 SOT-23/TO-92 TO-94SOT-23/TO-92 TO-92TO-92/SOT-23 TO-92/SOT-23 TO-92/SOT-23SOP16/DIP16SOT-26SOT-26 TSSOP8SOP8TSOP8TSSOP8 TSSOP6(SOT26) TSSOP8 TSSOP8 TSSOP6(SOT26) TSSOP8 TSSOP6(SOT26) TSSOP8 TSSOP6(SOT26) TSSOP6(SOT26) TSSOP8 TSSOP8 TSSOP6(SOT26) SOT-25DFN10SOT-89-5SOT-26SOT-26SOT-26SOP8SOP8DFN10MSOP8/SOP8MSOP8SOP8DFN10SOP8DFN10SOT-26/DIP8SOT-26/DIP8/SOP8SOT-26/DIP8SOT-26/DIP8/SOP8TO-92TO-92DIP8DIP8SOP8DIP8DIP8DIP8SOP8SOP8/DIP8/TSSOP8/MSOP8 SOP8/DIP8DiceCOB(SOP36)HSOP34HSOP28HSOP28HSOP28HSOP28HSOP28HSOP28QFP44TO-126DIP8SOP8/DIP8SOP8/DIP8SOP8/DIP8DIP16SOP16/DIP16 SOP20/DIP20 DIP22/MFP22QFN16/TSSOP16 TSSOP16SSOP20SOP14SOP8SOP8SOP14DIP14SOP14DIP14SOP8/DIP8 SOP8/DIP8 SOP8/DIP8 SOP8/DIP8 SOT-25/SOP8SOP14/DIP14 SOP8/DIP8 SOP8/DIP8 SOP8/DIP8 SOP8/DIP8SOP8/DIP8SOP8/DIP8SOP8/DIP8SOP16/DIP16SOP28/DIP28 SOP28/DIP28 SOP8/DIP8DIP16SOP16SOP20/DIP20SOP14/DIP14SOP8/DIP8SOP8/DIP8DIP8TO-92TO-220SOP8/DIP8SOP8/DIP8DIP16SOP16DIP16SOP16SSOP16/SOP16SOP14DIP14SOP8/DIP8SSOP24/SOP24/SDIP24 SSOP24/SOP24/QFN24 DIP14(插片)SOP14(贴片)SOP16SOP20SOP14SOP14SOP20SOP16SOP14DIP20DIP14QFP64QFP48SSOP16SOP8/DIP8SOP8/DIP8 SOP8 SSOP20 SOT-26 SOP8DIP16 SOP16 SOT-26 SOT-25 QFN20 SOT-26MAX809/IMP809 seriesMAX810/IMP810 seriesMAX705/706/707/708/813/IMP705/706/707/708/813 series 兼容SM8141兼容SM8141兼容SM8141兼容SM8142XC6101FC(FN)/XC6101CC(CN) seriesHT1621/SL3204HT1621/SL3204HT1622/SL3208HT1622/SL3208HT1623HT1626/SL4816HT1626/SL4816PT6523/SC75823PCF8566LM4890/LM4889/APA0711/NCP2890/PT2366LM4890/LM4889/LM4990/NCP2990LM4871LM4871TDA2822/KA2209TDA2822/KA2209TDA2822/KA2209TDA2822/KA2209TDA2822/KA2209LM386LM4888LM4818/SN4188SN4088/LPA4911LM4863MTELM4863LM4863TEA2025TEA2025LM4836LM4836TDA1517APA2068/G1450TPA2005TPA2010/NCP2820/TS4962/EUA2010/A7013/LM4670/1/3/5/APA2010/PT2333 LM4674TPA2012TPA2012TMPA2155PSTDA1308/LM4800/PT2308/APA4800LM4808LM4809LM4808LM4880/HT82V735FAN7000LM4898/LM4894TPA6211/TPA6204TPA6203PT2313/SC7313PT2314/SC7314PT2322PT2323PT2256PT2258M62429TC9153PT2399TDA9088/TDA7088/TDA1088CXA1191TA2003TA2111TA2149AMC7110AMC7111G5920G5921RT9300LTC3200/AAT3110/RT9361/AAT1501/AIC1848CP2133/FAN5616TPS60230RT9364RT9362RT9360/SC604/CAT3406/PAM2701AAT3114MLX90248/A180/A3212/TLE4913/EW6672ATC177/ATS177US1881EW732/EW512/DN6851FTC211/FTS211SS41/SS400/US1881UA/UGN3175/77UA/UGN3075/77UA/A3132/33/34UA/HAL105/115/125 SS49E/AH41ESS40AUS5881A3144/UGN3140/2/UGS3140/2/A3141/2/3DW01+/CS213/R5426/DW01DW01+/CS213/R5426/DW01兼容CR6002CEM9926/APM9926/AP9926/AO8822/AO8810CEM9926/APM9926/AP9926/AO8822/AO8810CEM8205/APM8205/AP8205/AO8205CEM8205/APM8205/AP8205/AO82055N20VAO8810AO8810AO8822AO8822AO8818AO8818AO8820AO8208APM6968AO8209LTC4054ES5/MCP73831-2(SOT-25)/MCP73832-2(SOT-25)/OCP8020LTC4054ES5/MCP73831-2/MCP73832-2/OCP8020LTC4054ES5/MCP73831-2/MCP73832-2)/OCP8020LTC4054ES5/MCP73831-2(SOT-25)/MCP73832-2(SOT-25)/OCP8020VA7205/VA7202RT9501SG6848/LD7550/OB2262SG6850/LD7550/OB2262/SG5701/SG5848SG6851/LD7535/OB2263/SG6848/SG6849/SG5701/SG5848/LD7550/OB2262/OB2278/OB2279 SG6841/SG6842/LD7552/OB2268/OB2269ACT30/AP3700ACT30/AP3700THX202THX203THX208THX201Viper22Viper12NCP1203PCF8563/PT7C4337DS1302/HT1380/HT1381AM5898AM5668AM5868AM5888BA5954KA9258KA9259BA5901AN6651LG7010LG9110LG9130TC9256/PT9256TC9257/PT9257TSC2046/ADS7846/MT6301/AK4182/ADS7843 TSC2003LM4558/JRC4558NJM3414NJM4510NJM2107SGM324/LMV324SGM358/LMV358NJM4580NJM4560NJM2568NJM4556NJM2137OP07DBL5018/SL5018SC34018MC34118/SC34118MC34119/SC34119SL5015SL5020MC34063AMC34063BLM3842LM3843TL494TL494BA9741/TL1451/SP9741/A1250/AP2001/FP1451 TB62726/MBI5026MBI502474HC16474HC16474HC59574HC24474HC0474HC1474HC24574HC13874HC2774HC37374HC393IR3Y31CS4334PT8211/TDA1311/HT82V731BIT3105TSM1051/SL71051/BD6550G/NJM2336 RT9174ULN2003ULN2003SGM3157RT9701MT6302MAX3205/SRV05-4。
德力西电气 样本-PD606谐波复费率电测量仪表 说明书
选型指南订货提示例1、如客户需要三相多功能表谐波表,类型为谐波表,输入方式为交流,外形尺寸为96×96,品种结构为带RS485通讯,显示方式为三相液晶显示,量程为AC450V 5A ,则相对应的订货编码为:PD606L-96T3Y-E AC450V 5A例2、如客户需要三相多功能谐波复费率表,类型为谐波复费率表,输入方式为交流,外形尺寸为42×42,品种结构为:RS485通讯+开关量4DO+4DI ,显示方式为三相液晶显示,量程为450V 5A ,则相对应的订货编码为:PD606L-42R3Y-FE 450V 5A 。
产品特征■应用范围:输配电控制系统、变电站、小区电力监控、工业自动化设备、智能型配电盘、高低压开关柜、电源柜、控制柜、各种电控装置做仪表配套使用。
■功能特点:测量精度高、线性好、工作稳定、性能可靠、性价比高、高清晰液晶显示;能同时测量电网中电压、电流、功率、无功功率、视在功率、功率因数、频率、有功电能、无功电能、谐波、电压、电流不平衡度、UIPQC需量,分时计费,事件记录等多个参数,采用MODBUS-RTU 协议的RS485通讯,具备多种扩展功能模块可选配:模拟量变送输出、开关量输入和开关量输出,最多每种可以选配4路。
■操作便捷:仪表面板带有四个编程按键,用户可现场方便的实现仪表参数的编程设置,具有很强的灵活性;按键采用硅胶材质分层桥式结构设计,同时为了规避静电击穿问题,按键下方设计凸凹结构,具有良好的力学性能、耐折、温度范围宽、机械性能好、防静电、防气体、防水、防尘、无毒、无味、触控手感好,操作省力方便;按键字符模具成型,字符光泽永不退色、脱落。
■美观设计:面板采用透明PMMA材质无框大屏面设计,纯平面外观,可视范围宽、视角效果佳,材质硬度高、透光好、表面光泽、耐候性佳、耐划伤、隔热、缘绝、保护性能强。
■产品设计充分考虑生产工艺、绿色环保,外壳采用阻燃材料,抗振动、耐腐蚀、美观大方、安全可靠,各项指标都符合国家标准;产品设计时采用大规模集成电路、SMT工艺,包装时进行塑封处理确保在储存和运输当中免受潮湿的影响;产品主要由电源电路、采样电路、显示电路等部分组成。
康佳集成电路代换资料汇总
KONKA康佳集成电路代换资料汇总一、微处理器部分1.没有掩膜的东芝TMP87CK36N 可直接代换TMP87PM36N ;当TMP87PM36N 掩膜后软件号为ECT860B 时,具有接收D /K 制和I 制丽音功能;当TMP87PM36N 掩膜后软件号为R0605时,具有全球丽音PALI 、PALD /K 、PALB /G 功能。
以上三种CPU 引脚和主要控制功能相同,但由于芯片内部烧录的软件不同,在丽音控制功能上有一点差异,只能和对应的丽音解码器配套使用,故不可直接代换,否则会出现伴音不良的现象。
2.三菱M37210M3-902SP 可代换M37210M3—800SP ,除了蓝屏时显示的康佳LOGO 颜色不同外,其它功能一样;它们反过来不能代换,否则电视机的某些功能不能实现。
M37210M4-705SP 在M37210M3—800SP 的基础上增加了丽音控制、I2C 总线控制以及动态梳状滤波器功能,引脚功能也发生了变化,故不能与M37210M3—800SP 、M37210M3-902SP 互换。
3. ST6367BB 和ST6367B1可以直接代换; ST6367B1/BML 和ST6367B1/FEJ 功能完全相同,可以互换;ST6367B1/FEJ 可代ST6367B1/FCB ,但在无信号时屏幕上有噪波、杨声器里有噪音,这是因为ST6367B1/FEJ 取消了ST6367B1/FCB 的童锁、无信号静噪功能,而且将遥控器上的童锁键定义为回看键。
同类型芯片软件修KONKA 改后命名的还有ST6368B1或ST6368B1/FEM 等集成块,以上大部分都可以代换,代换原则是新型号可以代换老型号。
在ST6367和ST6368B1系列的软件基础上,增加多制式识别、中英文菜单显示、伴音I2C 总线控制等功能后命名为ST6368B4/FHO ;不断推出的新品机型在ST6368B4/FHO 的软件基础上修改部分功能后分别命名有ST6368B4/FHE 、ST6378B4/FLY 、ST6378B4/FKI 、ST6378B4/FKU 等。
PD606-E43
PD606-E43可编程智能电测表安装使用说明书上海文憬电气有限公司Shanghai Wenjing Electric Co.,Ltd申明版权所有,未经本公司之书面许可,此手册中任何段落、章节内容均不得被摘抄、拷贝或以任何形式复制、传播,否则一切后果由违者自负。
本公司保留一切法律权利。
本公司保留对本手册所描述之产品规格进行修改的权利,恕不另行通知。
上海文憬电气有限公司1、概述 (2)2、技术参数 (2)3、安装与接线 (3)3.1 外形及安装开孔尺寸 (3)3.2 安装方法 (3)3.3 接线方法 (4)3.4 注意事项 (5)3.4.1电压输入 (5)3.4.2电流输入 (5)3.4.3通讯接线 (5)4、使用指南 (6)4.1按键 (6)4.2菜单符号及意义 (6)4.3编程流程 (7)4.3.1正常显示界面(按动左键或右键,显示界面将按以下顺序进行切换,) (7)4.3.2 主菜单切换(在正常显示画面时,按SET键,如下:) (7)4.3.3 rEAd工作参数查看菜单 (8)4.3.4 Prog工作参数设置菜单 (8)4.4 功能设置与使用 (9)4.4.1 倍率更改设置 (9)4.4.2 通讯功能及参数设置 (9)4.4.3 报警功能及参数设置 (9)4.4.4 开关量功能及输出控制 (9)4.4.5 液晶背光控制 (10)4.4.6 编程密码设置 (10)4.4.7 电能的清零 (11)5通讯指南 (11)5.1概述 (11)5.2 协议 (11)5.2.1 数据帧格式 (11)5.2.2 地址(Address)域 (11)5.2.3 功能(Function)域 (12)5.2.4错误校验的方法 (12)5.3功能码简介 (13)5.3.1功能码03H或04H:读寄存器 (13)5.3.2功能码10H:写寄存器 (13)5.4通讯应用细节 (14)5.4.1开关量输入输出 (14)5.4.2报警状态 (15)5.4.3电力参数与电能 (15)5.4.4电力参数与电能 (15)5.5 通讯地址表 (17)PD606-E43可编程三相智能电测仪表21、概述PD606-E43可编程智能电测仪表,是针对电力系统,工矿企业,公用设施,智能大厦的电力监控需求而设计的一种智能表,它集成全部电力参数的测量(如三相的电流、电压、有功功率、无功功率、频率、功率因数),还能检测四象限电能。
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PD606-E43可编程智能电测表安装使用说明书上海文憬电气有限公司Shanghai Wenjing Electric Co.,Ltd申明版权所有,未经本公司之书面许可,此手册中任何段落、章节内容均不得被摘抄、拷贝或以任何形式复制、传播,否则一切后果由违者自负。
本公司保留一切法律权利。
本公司保留对本手册所描述之产品规格进行修改的权利,恕不另行通知。
上海文憬电气有限公司1、概述 (2)2、技术参数 (2)3、安装与接线 (3)3.1 外形及安装开孔尺寸 (3)3.2 安装方法 (3)3.3 接线方法 (4)3.4 注意事项 (5)3.4.1电压输入 (5)3.4.2电流输入 (5)3.4.3通讯接线 (5)4、使用指南 (6)4.1按键 (6)4.2菜单符号及意义 (6)4.3编程流程 (7)4.3.1正常显示界面(按动左键或右键,显示界面将按以下顺序进行切换,) (7)4.3.2 主菜单切换(在正常显示画面时,按SET键,如下:) (7)4.3.3 rEAd工作参数查看菜单 (8)4.3.4 Prog工作参数设置菜单 (8)4.4 功能设置与使用 (9)4.4.1 倍率更改设置 (9)4.4.2 通讯功能及参数设置 (9)4.4.3 报警功能及参数设置 (9)4.4.4 开关量功能及输出控制 (9)4.4.5 液晶背光控制 (10)4.4.6 编程密码设置 (10)4.4.7 电能的清零 (11)5通讯指南 (11)5.1概述 (11)5.2 协议 (11)5.2.1 数据帧格式 (11)5.2.2 地址(Address)域 (11)5.2.3 功能(Function)域 (12)5.2.4错误校验的方法 (12)5.3功能码简介 (13)5.3.1功能码03H或04H:读寄存器 (13)5.3.2功能码10H:写寄存器 (13)5.4通讯应用细节 (14)5.4.1开关量输入输出 (14)5.4.2报警状态 (15)5.4.3电力参数与电能 (15)5.4.4电力参数与电能 (15)5.5 通讯地址表 (17)PD606-E43可编程三相智能电测仪表21、概述PD606-E43可编程智能电测仪表,是针对电力系统,工矿企业,公用设施,智能大厦的电力监控需求而设计的一种智能表,它集成全部电力参数的测量(如三相的电流、电压、有功功率、无功功率、频率、功率因数),还能检测四象限电能。
同时它具有多种外围接口功能可供用户选择:带有RS485通讯接口,采用MODBUS-RTU 协议可满足通讯联网管理的需要;带开关量输入和继电器输出可实现断路器开关的“遥信”和“遥控”的功能,采用带高亮度背光的LCD 显示界面,通过面板按键来实现参数设置和控制,非常适合于实时电力监控系统。
PD606-E43系列可编程智能电测仪表具有极高的性能价格比,可以直接取代常规电力变送器及测量仪表。
作为一种先进的智能化、数字化的前端采集元件,该可编程智能电测仪表已广泛应用于各种控制系统,SCADA 系统和能源管理系统中。
2、技术参数技术参数 指标输入网络 三相三线、三相四线 频率 45~65Hz电压交流电压:AC220V 、380V ;过负荷:1.2 倍额定值(连续); 2 倍额定值持续1 秒 功耗: 小于 0.2VA 电流额定值:AC 1A 、5A过负荷:1.2 倍额定值(连续); 10倍额定值持续1 秒 功耗: 小于 0.2VA输出电能输出方式:集电极开路的光耦脉冲,1路有功电能脉冲输出 脉冲常数: 3200 imp/kWh通讯 RS485接口、Modbus-RTU 协议波特率1200、2400、4800、9600、19200bps 可设定 显示 带背光的LCD开关量输入 2路干接点输入,内置+15V 电源 开关量输出 输出方式:2路继电器常开触点输出 触点容量:AC 250V/3A 、DC 30V/3A 测量精度频率0.05Hz 、无功电能1级、其它0.5级上海文憬电气有限公司电源AC/DC 85~270V ;功耗≤4VA安全性工频耐压:电源、电压输入回路、电流输入回路两两之间AC2kV/1min ;电源与开关量输入回路、通讯回路之间AC2kV/1min ;绝缘电阻:输入、输出端对机壳>100M Ω环境工作温度:-10℃~+55℃;储存温度:-20℃~+70℃ 相对湿度:5%~95% 不结露;海拔高度:≤2500m3、安装与接线3.1 外形及安装开孔尺寸(单位:mm )3.2 安装方法PD606-E43可编程智能电测仪表安装方式为嵌入式,固定方式为挤压式,具体操作如下:1、 在配电盘上,选择适合的地方开一个与所安装可编程智能电测仪表开孔尺寸相同的安装孔;2、取出可编程智能电测仪表,松开定位螺钉(逆时针),取下安装支架;3、把仪表插入配电盘仪表孔中,插入仪表后装上安装支架、定位螺钉(顺时针)。
PD606-E43可编程三相智能电测仪表43.3 接线方法(注:如与仪表壳体上接线图不一致,以仪表壳体上接线图为准)3.3.1电压电流信号端子3.3.2辅助电源端子上海文憬电气有限公司3.3.3附加功能端子3.4 注意事项3.4.1电压输入输入电压应不高于产品的额定输入电压400V的120%,否则应考虑使用PT;在电压输入端须安装1A保险丝;3.4.2电流输入标准额定输入电流为5A或1A,大于5A的情况应使用外部CT;接线时确保输入电流与电压相序一致,即1号接线端接A相电压则5、6号接线端一定要接A相电流,否则会出现显示数值和符号错误;同时确保电流进出线连接正确(打*号端子接进线)。
如果使用的CT上连有其它仪表,接线应采用串接方式;安装接线时建议使用接线排,不要直接接CT,以便于拆装;去除产品电流输入连线前,必须先切断CT一次回路或者短接二次回路!3.4.3通讯接线该仪表提供异步半双工RS485通讯接口,采用MODBUS-RTU协议,各种数据信息均可在通讯线路上传送。
理论上在一条线路上可以同时连接多达128个仪表,每个仪表均可设定其通讯地址(Addr),通讯速率(buad)也可通过设置选择。
通讯连接建议使用两芯屏蔽双绞线,线径不小于0.5mm2,分别接A、B,屏蔽层接大地,布线时应使通讯线远离强电电缆或其他强电场环境。
PD606-E43可编程三相智能电测仪表6建议在最末端仪表的A 、B 之间加匹配电阻,电阻阻值范围为120Ω~10k Ω。
4、使用指南4.1按键SET 键 左移键 右移键 回车键SET 键 —— 功能切换或返回上一级菜单;(正常显示、只读菜单与编程菜单之间切换) 左移键 —— 子菜单左移或减小数据;(功率表、电能表等正常状态下,按左右键,查看各项电量)右移键 —— 子菜单右移或增大数据;(普通电流电压表等正常状态下,按住此键,查看报警信息)回车键 —— 进入下一级菜单或确认;(正常状态,按此键,进入DI/DO 指示与控制页面)4.2菜单符号及意义类别 符号含义范围主菜单 只读菜单 编程菜单变比(倍率)电压(电流)变比 0001~9999接线方式 接线方式(只读) 3P4L 三相四线制 3P3L 三相三线制 通讯 通讯地址1~247通讯波特率(bps ) 1200、2400、4800、9600、19200 液晶背光背光延时时间(s ) 1-250,0 为常亮报警设置电压高报警设置 0 ~150.0% (150.0%:关闭)电压低报警设置 0 ~100.0% (0.0%:关闭) 电流高报警设置 0 ~150.0% (150.0%:关闭) 电流低报警设置 0 ~100.0% (0.0%: 关闭)报警延时时间(s )0.5-20.0(分辨率0.1s )继电器 (DO 输出)继电器1闭合持续时间(s ) 0~20(分辨率1s ) 0:继电器工作在保持状态继电器2闭合持续时间(s )上海文憬电气有限公司继电器2的用法 io :作开关量 (K ); AL :作报警输出(J ) 仪表量程 电压量程(只读) 0~400 电流量程(只读) 0~5.0 电能清零 电能清除 见注1 密码 编程保护密码 0000~9999保存询问是否保存按“回车”保存并退出 按“SET ”放弃保存并退出注:1、电能清零操作需在闪动的“”下,按动左或右键,使其变为“”,然后按动确认键。
电能清零操作不需另行保存即可生效,且不能恢复,请谨慎操作;2、百分量是指相对于额定量程计算。
4.3编程流程4.3.1正常显示界面(按动左键或右键,显示界面将按以下顺序进行切换,)右键左键左键右键右键左键左键右键右键左键左键右键右键分相功率因数正向有功电能反向有功电能正向无功电能反向无功电能左键报警信息左键右键相电压线电压右键左键左键右键线路频率分相电流右键左键左键右键合相功率分相有功功率右键左键分相无功功率注:1、在三相三线制时,正常显示界面将没有“相电压、分相有功功率、分相无功功率、分相功率因数”2、功率仪表无电能显示,电能仪表无功率显示。
4.3.2 主菜单切换(在正常显示画面时,按SET 键,如下:)正常状态 rEAd Prog 说明:PD606-E43可编程三相智能电测仪表8rEAd — 只读菜单,在此页面,按回车键进入; Prog — 编程菜单,在此页面,按回车键进入;4.3.3 rEAd 工作参数查看菜单说明:此rEAd 菜单可按左移、右移键查看设置的各种参数。
按SET 键返回上一级。
4.3.4 Prog 工作参数设置菜单Prog 菜单可按左移、右移键切换,按回车键则第三行数码闪烁,表示可修改;修改后按回车确认。
按SET 键出现闪烁的SAVE ,询问是否保存,如需保存按回车确认,否则按SET 键退出不保存。
4.4 功能设置与使用4.4.1 倍率更改设置例1:AC10kV/100V 的电压表:进入Prog 菜单,修改Pt 为100;计算方法:10000V ÷100V = 100例2:AC500A/5A 的电流表:进入Prog 菜单,修改Ct 为100。
一般当测量数据大于或等于10kV 或10kA 时,液晶的显示单位将由“V ”或“A ”改为“kV ”或“kA ”。
4.4.2 通讯功能及参数设置Modbus-RTU 协议:“9600,8,n ,1”。
通讯参数见4.2菜单符号及意义,编程流程见4.3.4,进入Prog 菜单。
4.4.3 报警功能及参数设置报警状态(正常测量时,按住右移键,可查看报警信息) - - - - Ua - H Ua - L Ab - H Ab - L 当测得的数据为0时不报警- - - - - - - - - - - - - - - - - - - - - - - -- - - -- - - -- - - -- - - -正常 A 相电压过高 A 相电压过低 B 相电流过高 B 相电流过低正常测量时,若有报警产生,则对应的显示数据会闪烁。