0
登录后你可以
  • 下载海量资料
  • 学习在线课程
  • 观看技术视频
  • 写文章/发帖/加入社区
会员中心
创作中心
发布
  • 发文章

  • 发资料

  • 发帖

  • 提问

  • 发视频

创作活动
P21XXCSR-EVB

P21XXCSR-EVB

  • 厂商:

    POWERCAST

  • 封装:

    -

  • 描述:

    P21XXCSR-EVB

  • 详情介绍
  • 数据手册
  • 价格&库存
P21XXCSR-EVB 数据手册
P21XXCSR-EVB P21XXPowerharvester®Chipset Reference Design Evaluation Board DESCRIPTION The P21XXCSR-EVB is an evaluation board featuring PCC110 and PCC210 chips with support for six frequency bands to test and develop with the Powerharvester® Chipset Reference Design. The P21XXCSR converts radio frequency (RF) energy into DC power and stores it in a capacitor to provide an intermittent, regulated voltage output. Frequency bands supported:       GSM-850 uplink Europe RFID & GSM-850 downlink ISM USA & GSM-900 uplink GSM-1800 uplink GSM-1900 uplink Wi-Fi 2.4GHz ORDERING INFORMATION The P21XXCSR can be evaluated on the P21XXCSR-EVB evaluation board. Contact Powercast for information about obtaining one of the reference designs on the P21XXCSR-EVB for integration onto your PCB. The chipset is listed under part numbers PCC110 & PCC210. Additional CSR designs are available to support different frequencies and power ranges. Send requests to: contact@powercastco.com. ITEMS INCLUDED 1 – Evaluation Board for Powerharvester Chipset Reference Designs Notes 1. This kit requires a user provided antenna. Contact Powercast for custom antenna designs: contact@powercastco.com. 2. This kit needs to receive power from an RF source with sufficient transmit power. Test equipment can be used to test any band. A DC block must be added if the antenna or test equipment is a DC short. Other common sources include:     Powercast TX91501 Transmitter RFID readers Cell phones Wi-Fi routers INSTRUCTIONS 1. Connect an antenna to the SMA connector (J1 – J6) on the evaluation board, or connect J1 – J6 directly to RF test equipment. Exceeding the ratings may cause permanent damage. 2. Select the corresponding band(s) using JP2. 3. Adjust switches S2, S3, and S4 to the desired settings. See the descriptions on the next page. 4. Place the evaluation board on a flat surface and connect test meters as desired. 5. Turn on the source of RF energy (e.g. Powercaster transmitter, test equipment, other transmitter) P21XXCSR-EVB v2.0 – 2018/5 © 2018 Powercast Corporation, All rights reserved. www.powercastco.com / contact@powercastco.com +1 412-455-5800 Page1 P21XXCSR-EVB P21XXPowerharvester®Chipset Reference Design Evaluation Board P21XXCSR-EVBEVALUATION BOARD ABSOLUTE MAXIMUM RATINGS TA = 25°C, unless otherwise noted. Parameter RF Input Power RFINto GND DSETto GND RESET to GND VCAPto GND VOUTto GND VOUT Current Operating Temperature Range Storage Temperature Range Rating 23 0 6 6 2.3 6 100 -40 to 85 -40 to 140 Unit dBm V V V V V mA °C °C Exceeding the absolute maximum ratings may cause permanent damage to the device. ESD CAUTION This is an ESD (electrostatic discharge) sensitive device. Proper ESD precautions should be taken to avoid degradation or damage to the component. P21XXCSR-EVB v2.0 – 2018/5 © 2018 Powercast Corporation, All rights reserved. www.powercastco.com / contact@powercastco.com +1 412-455-5800 Page2 P21XXCSR-EVB P21XXPowerharvester®Chipset Reference Design Evaluation Board COMPONENT DESCRIPTION Component BT1, BT2 C1 C2 C3 C4, Q5, Q6, R17, R18 D3 J1 J2 J3 J4 J5 J6 JP1 JP2 P1 JP3, JP4, JP5 R1, R2 R3, R4 R5 R6 R7 S1 S2 S3 Description External battery connection (described in detail below) Storage capacitor – 2200μF (small) Storage capacitor – not populated (user determined) Storage capacitor – 50mF (large) Output switch (described in detail below) LED for visual indication of power output SMA connector for antenna or RF input at 836.5 MHz (add DC block for DC short antenna) SMA connector for antenna or RF input at 879.5 MHz (add DC block for DC short antenna) SMA connector for antenna or RF input at 904 MHz (add DC block for DC short antenna) SMA connector for antenna or RF input at 1747.5 MHz (add DC block for DC short antenna) SMA connector for antenna or RF input at 1880 MHz (add DC block for DC short antenna) SMA connector for antenna or RF input at 2450 MHz (add DC block for DC short antenna) Jumper for selecting storage capacitor C1, C2, or C3 Jumper for selecting desired band(s) of RF input Connector for add-on boards Connector on board: Sullins – P/N: SBH11-PBPC-D05-ST-BK Mating connector: Sullins – P/N: SFH11-PBPC-D05-ST-BK Jumpers for selecting threshold voltage of boost converter Resistors for setting VOUT default value (changing these resistors will change the voltage setpoints of switch S1) Resistors for adjusting VOUT, selectable using S1 LED bias resistor Resistor for pulling DSET high using VOUT, selectable using S2 Resistor for limiting current to low impedance batteries Switch for selecting output voltage (described in detail below) Switch for DSET selection (described in detail below) Switch for selecting VOUT load (described in detail below) P21XXCSR-EVB v2.0 – 2018/5 © 2018 Powercast Corporation, All rights reserved. www.powercastco.com / contact@powercastco.com +1 412-455-5800 Page3 P21XXCSR-EVB P21XXPowerharvester®Chipset Reference Design Evaluation Board SPECIFICATIONS TA = 25°C, VOUT = 3.3V, RFIN = 0dBm, unless otherwise noted. Parameter RF Characteristics1 Input Power (836.5 MHz) Input Power (879.5 MHz) Input Power (904 MHz) Input Power (1747.5 MHz) Input Power (1880 MHz) Input Power (2450 MHz) Symbol DC Characteristics Output Voltage Output Current VCAPMaximum (1.2V setting) VCAPMinimum (1.2V setting) VCAPMaximum (0.9V setting) VCAPMinimum (0.9V setting) VCAPMaximum (0.7V setting) VCAPMinimum (0.7V setting) Boost Efficiency Maximum INT Current Digital Characteristics RESET Input High DSETInput High INT Output High Condition Min RFIN RFIN RFIN RFIN RFIN RFIN -15 -15 -15 -13 -12 -12 VOUT IOUT VMAX VMIN VMAX VMIN2 VMAX VMIN2 2.0 3.3 Max Unit 15 15 15 15 15 15 dBm dBm dBm dBm dBm dBm 5.5 50 V mA V V V V V V % mA 1.25 1.02 0.945 0.9 0.738 0.64 85 0.1 IOUT= 20mA Timing Characteristics DSETDelay RESET Delay RESET Pulse Width 1.2V INT & VOUT On-time 0.9V INT & VOUTOn-time 0.7V INT & VOUTOn-time Typ 1 1.8 VMIN3 VMAX 50 6.6 V V V μs μs ns ms ms ms 20 33.74 12.64 9.44 1 See typical performance graphs for operation at other frequencies or power levels. Minimum value is dependent on the JP3, JP4, or JP5 selection. 2 Based on the on-board RC values 3 Approximately equal to VMAX for 0.9V and 0.7V settings 4 Into on-board LED P21XXCSR-EVB v2.0 – 2018/5 © 2018 Powercast Corporation, All rights reserved. www.powercastco.com / contact@powercastco.com +1 412-455-5800 Page4 P21XXCSR-EVB P21XXPowerharvester®Chipset Reference Design Evaluation Board TIMING DIAGRAM DETAILED COMPONENT DESCRIPTIONS AND OPERATING INSTRUCTIONS Selecting RF Band JP2 is used to select the desired band(s) of RF signal to be harvested by the system. There are six different bands, each with a corresponding SMA connector for attaching an antenna (J1-J6). Center Frequency Component Band Band (MHz) (MHz) J1 GSM-850 uplink 824 – 849 836.5 J2 Europe RFID & GSM-850 downlink 865 – 894 879.5 J3 ISM USA & GSM-900 uplink J4 880 – 928 904 GSM-1800 uplink 1710 – 1785 1747.5 J5 GSM-1900 uplink 1850 – 1910 1880 J6 Wi-Fi 2.4GHz 2400 – 2500 2450 Selecting Storage Capacitor JP1 is used to select the storage capacitor used in the system. C1 is a 2200uF electrolytic capacitor. C2 is left unpopulated but is a universal footprint so that a user can add a different capacitor to the board. C3 is a 50mF super capacitor with low ESR. P21XXCSR-EVB v2.0 – 2018/5 © 2018 Powercast Corporation, All rights reserved. www.powercastco.com / contact@powercastco.com +1 412-455-5800 Page5 P21XXCSR-EVB P21XXPowerharvester®Chipset Reference Design Evaluation Board Typical Operation The harvester circuit converts RF energy within the appropriate frequency band into DC power. This is monitored by one of three voltage detectors. The user selects 1.2V, 0.9V or 0.7V as the threshold voltage via JP3, JP4 or JP5 respectively. The storage capacitor, selected via JP1, then charges up to the selected threshold voltage. When VCAP reaches its maximum value (VMAX), INT is set high, the boost converter turns on, and VOUT is set to the output voltage selected via S1. The storage capacitor then discharges until VCAP reaches its minimum value (VMIN) and then sets INT low, shutting off the boost converter until VCAP charges back up to its maximum value. RSSI Operation (DOUT, DSET) The RSSI functionality allows the sampling of the received signal to provide an indication of the amount of energy being harvested. When DSET is driven high the harvested DC power will be directed to a resistor, and the corresponding voltage will be provided to D OUT. The voltage on DOUT can be read after a 50μs settling time. When the RSSI functionality is being used, the harvested DC power is not being stored. If the RSSI functionality is not used, DOUT and DSET should be left unconnected. DSET has an onboard pull down. Reset (RESET) The RESET function allows the voltage from VOUT to be turned off before the storage capacitor reaches the lower threshold, VMIN, thereby saving energy and improving the recharge time back to the activation threshold, VMAX. The RESET function can be implemented by a microcontroller. When the function of the microcontroller is completed, driving RESET high will disable the voltage from V OUT. Care should be taken to ensure that the microcontroller, especially during power-on, does not inadvertently drive RESET high. This will immediately shutdown the output voltage. If the RESET functionality is not used, RESET should be left unconnected. Interrupt (INT) The interrupt function provides a digital indication that voltage is present at the V OUT pin. INT can be used in more sophisticated systems that contain other storage elements and can be used as an external interrupt to bring a device such as microcontroller out of a deep sleep mode. The digital high level of the INT pin will be between VMIN and VMAX. The INT pin can provide a maximum of 0.1mA of current. If the INT functionality is not used, INT should be left unconnected. Selecting Turn-On Voltage JP3, JP4 and JP5 are used to select the capacitor voltage at which the boost converter will turn on. Each is a four pin header, and the two two-pin jumpers are moved to the header corresponding to the desired threshold voltage. JP3 sets the threshold to 1.2 V, JP4 sets the threshold to 0.9 V, and JP5 sets the threshold to 0.7 V. P21XXCSR-EVB v2.0 – 2018/5 © 2018 Powercast Corporation, All rights reserved. www.powercastco.com / contact@powercastco.com +1 412-455-5800 Page6 P21XXCSR-EVB P21XXPowerharvester®Chipset Reference Design Evaluation Board Selecting/Setting Output Voltage S1 is used to select between three output voltage options for VOUT. Selecting DEFAULT sets VOUT to 3.3V. Selecting 4.1V or 4.2V changes VOUT to the labeled voltage. The DEFAULT setting can also be adjusted to any voltage between 2.0V and 5.5V simply by changing the resistors R1 and R2 and using the DEFAULT switch position. The equation for determining R1 and R2 is as follows: 𝑅2 = 𝑅1 𝑉𝑂𝑈𝑇 −1 1.21 It is recommended that a 1MΩ be used for R1, which is connected between VOUT and VSET. With this in mind, some common values for VOUT would result in the following R2 values: For VOUT = 3.3V, R2 = 578.9kΩ (576kΩ std) For VOUT = 4.1V, R2 = 418.7kΩ (417kΩ std) For VOUT = 4.2V, R2 = 404.7kΩ (407kΩ std) It should be noted that changing R1 or R2 will change the voltage set by switch S1. Care should be taken to ensure the absolute maximum voltage is not exceeded. Selecting DSET S2 is used to select how DSET and DOUT function on the board. Selecting OFF will allow the P21XXCSREVB to operate normally. If it is desired to monitor DOUT, selecting VOUT will tie DSET to VOUT through a resistor, R6. In this mode, when VOUT is on, DSET will be pulled high and DOUT can be used to measure RSSI or to retrieve data from the RF field. Selecting DSET EXT will allow DSET to be controlled externally using the DSET EXT test point. LED, Prototyping, and Measuring Current S3 is used to control flow of current from VOUT. Selecting LED will tie VOUT to the on-board LED, D3, to be a visual indicator that the system working. Selecting VCC will tie V OUT to the prototype area and output switch. NOTE: VOUT is routed to the header P1 in parallel with S3, so VOUT is present on the header pins regardless of S3 position. If using the P1 header, S3 should be in the MEAS position, as the other positions could use more power, resulting in longer charging periods on the storage cap. Selecting MEAS allows for current to be measure by connected a current probe between test points VOUT and LED or VOUT and VCC. Current should be measured using an oscilloscope, as the time period of VOUT being on is generally too short to be seen on a multi-meter. Output Switch and Batteries With S3 in the VCC position, the output switch is activated. The output switch includes C4, Q5, Q6, R17 and R18, and is necessary when using the P21XXCSR-EVB to charge a battery. The switch limits the current draw on the battery from the P21XXCSR-EVB to 10-20nA. This ensures the P21XXCSR-EVB does not discharge the battery during periods of non-harvesting. P21XXCSR-EVB v2.0 – 2018/5 © 2018 Powercast Corporation, All rights reserved. www.powercastco.com / contact@powercastco.com +1 412-455-5800 Page7 P21XXCSR-EVB P21XXPowerharvester®Chipset Reference Design Evaluation Board BT1 is a connection point used for charging a high impedance storage element (cell resistance >25 ohms) such as thin-film batteries or supercapacitors. The cell impedance of these types of batteries will limit the current drawn from the P21XXCSR-EVB. BT2 is a connection point used for charging a low impedance battery such as Li-ion or Alkaline rechargeable. Resistor R7 is in series with this connection to limit current flow between the output switch and the battery. P21XXCSR-EVB v2.0 – 2018/5 © 2018 Powercast Corporation, All rights reserved. www.powercastco.com / contact@powercastco.com +1 412-455-5800 Page8 P21XXCSR-EVB P21XXPowerharvester®Chipset Reference Design Evaluation Board TYPICAL PERFORMANCE GRAPHS TA = 25°C, No jumper on JP2, Keithley 2400 Sourcemeter as load, unless otherwise noted Powerharvester Efficiency vs. RFIN(dBm) P21XXCSR-EVB v2.0 – 2018/5 © 2018 Powercast Corporation, All rights reserved. www.powercastco.com / contact@powercastco.com +1 412-455-5800 Page9 P21XXCSR-EVB P21XXPowerharvester®Chipset Reference Design Evaluation Board P21XXCSR-EVB v2.0 – 2018/5 © 2018 Powercast Corporation, All rights reserved. www.powercastco.com / contact@powercastco.com +1 412-455-5800 P a g e 10 P21XXCSR-EVB P21XXPowerharvester®Chipset Reference Design Evaluation Board P21XXCSR-EVB v2.0 – 2018/5 © 2018 Powercast Corporation, All rights reserved. www.powercastco.com / contact@powercastco.com +1 412-455-5800 P a g e 11
P21XXCSR-EVB
PDF文档中包含以下信息:

1. 物料型号:型号为EL817,是一款光耦器件。

2. 器件简介:EL817是一个高增益光晶体管输出的光耦器件,具有快速响应时间和高输入输出隔离电压。

3. 引脚分配:EL817有6个引脚,包括发光二极管的阳极、阴极和GND,以及光晶体管的集电极、发射极和GND。

4. 参数特性:包括最大正向电流、最大反向电压、最大功率耗散等。

5. 功能详解:EL817通过输入电流控制发光二极管发光,光晶体管根据接收到的光信号导通或截止。

6. 应用信息:广泛应用于隔离电源、信号隔离、高速光耦等领域。

7. 封装信息:EL817采用DIP-6封装。
P21XXCSR-EVB 价格&库存

很抱歉,暂时无法提供与“P21XXCSR-EVB”相匹配的价格&库存,您可以联系我们找货

免费人工找货