AMS_Series微码刷新20070114

PCD1.G2100-A10E-Line S-Serie RIO 8UIData sheetThe S-Serie E-Line RIO modules are controlled via the RS-485 serial communication protocols S-Bus and Modbus for decentralised automation using industrial quality components. The data point mix is specifically designed for building automation applications.The compact design according to DIN 43880 enables the use in electrical distributionboxes even in the most confined spaces. Installation and maintenance are facilitated by the local manual override for each output. Remote maintenance is also possible using the access to the manual override by the web interface in the Saia PCD® controller. Programming is very efficient and fast using a complete FBox library with web templates for S-Bus. Individual programs may directly access the data points via Registers and Flags, a complete documentation is available from this data sheet.f S-Bus protocol optimized for fast data exchangef Modbus protocol for integration in multi-vendor installations*f Local override operating level via web panel or buttons on the module f Easy programming using the FBox library and web templates f Industrial hardware in accordance with IEC EN 61131-2 f Pluggable terminal blocksf Bridge connectors for power supply and communication f Bus termination on boardf Configurable Bi-Colour LEDs and labelling for I/Os* B y default the module is working in S-Bus Data Mode with Autobaud detection. To configure Modbus the Windows based Application “E-LineApp” is required.On a 35 mm top-hat rail ( i n accordance with DIN EN 60715 TH35)Housing width 6 HP (105 mm)Compatible with electrical control cabinet (in accordance with DIN 43880, size 2 × 55 mm)Dimensions and installationFeaturesGeneral technical dataPower supply/DA+DB-GND+24VOpenClose For easy installation the power supply and communicationbus is available together at one connector. The push-in springterminals enable wiring as well support the connector bridge.Push-in spring terminals enable wiring with rigid or flexible wireswith a diameter up to 1.5 mm². A max. of 1 mm² is permitted withcable end sleeves.Terminal technologyConnection conceptOFF No PowerGreen Communication OKGreen blink Auto bauding in progressOrange No communicationRedE rrorRed/Green alternate B ooter mode(e.g. during Firmware download)Red blink Internal fatal errorStatus LEDThe module provides an active bus termination. It is switchedoff by factory default. To enable the termination, the switchneed to be in the “Close” position.Bus terminationThe USB interface provides access to the communicationprotocol configuration. Firmware updates can also be downloaded via Saia PG5® Firmware Download tool.Service interfaceReset buttonPushed over 20 seconds: The button needs to be pushed forminimum 20 seconds and released during the first minute afterpower up. All user settings are reset to factory default values.Pushed at power up: Power off the device and press thebutton. Power on and release the button before 5 seconds havepassed. The device stays in boot mode for further actions likefirmware download etc.Input/Output configurationUniversal InputsAnalogue input mode[2] R ange 0 … 300 kΩ must be used. The temperature for NTC are not standardised and may differ depending on the manufacturer.A CSV file can be used for the value generation with a linearisation FBox. The CSV file can be found on the support page (link, see last page).Digital input modeGND +24V/DA+DB–GND +24V/DA+DB–Assignment overviewPower supply and bus terminationConnection diagrams0 … 10 V0 … 300 kOhmUniversal inputsOFF No Power Green Communication OK Green blink Auto bauding in progress Orange No communication Red E rror Red/Green alternate B ooter mode (e.g. during Firmwaredownload)Red blink Internal fatal errorStatus LEDLED SignalisationUniversal inputThe Manual override LED is Off in automatic mode and orange in case of manual override is active.LED colour f Off (automatic)f Orange manual mode active LED blink codef No blink (local manual override)f Blinking 1 flash per second (remote manual override)Manual modef Data exchange for I/O via optimised S-Busf Configurable save state for bus interruption or timeoutf Direct generation of the symbolsf Reading and writing of the status of the manual override statusf Direct compatibility with web macrosThe modules are addressed and programmed with Saia PG5® Fupla FBoxes. Web templates are available for theoperation and visualisation of the manual override function.Further information, including which FBoxes are supported,Getting Started, etc., can be found on our support page.Web templates are available for the operation and visualisationof the manual override function.Communication FBoxWeb templatesProgrammingBy using the local override function, commissioning can takeplace independently of the master station.In addition, the manual operation can also be controlledremotely using a touch panel. If the bus line is cut off, the FuplaE-Line libraryE-Line RIOs support the device setup by a windows application program connected via USB. The installer is available for down-load from the SBC support page: E-Line RIO IO Modules.The Baudrate can be defined as automatic detection(default) or set to a specific value. The drop down choice willbe available when the check box “Automatic” is unchecked.TN delay and TS delay shall be left at their default values of 2.Create a new device configurationOpen an existing device configurationSave the current settings as device configurationUpload configuration from the deviceDownload settings to the deviceThe serial communication protocol can be defined either asS-Bus or Modbus. By default the modules are delivered fromfactory with S-Bus.S-Bus settingsThe station number can be set by the rotary switches at thedevice in the range of 0 … 98. If the rotary switches are set toposition 99 the station number can be defined by the deviceconfiguration in a range of 0 … 253.Modbus settingsThe Baudrate is set by default to 115 k. It can be defined aschoice of the list.For best interoperability the Parity Mode and number ofStop Bits can also be set.S-Bus communication is based on Saia PCD® S-Bus Data Mode. Only the set-up of a unique S-Bus address within the communi-cation line is required to establish a communication between Saia PCD® controllers and E-Line RIO modules. The address can be set by the rotary switches at the front of the module. The baud rate will be learned from the network by factory default. In addition a Windows based application is available for manual parameter setup. Configuration parameters as well as manual override state and value are saved non-volatile. A delay of about one second between a manual state change and none volatile saving has to be taken into consideration.Device address f 0 … 98 Address is taken from the rotary switchesf 99Address is taken from the device configuration. The address is settable with the E-Line configuration software.Start-up procedure f Reboot: All outputs are cleared (Off state) f < 1 sec.Output in manual operation are set according to the state before power down.f Outputs in automatic modeIs no telegram received after reboot within the “safe state power-on timeout” the module enters into the safe state mode and sets the outputs according to their configured values.On reception of a valid command telegram the outputs are controlled by the communication. When no communication update followed within the “safe state com. timeout” the module enters into safe state and sets the outputs according to their configured values.Usage of the E-Line module specific FBoxesThe usage of the E-Line module specific FBoxes from the E-Line S-Bus Fupla library allows an easy and efficient commis-sioning of the E-Line RIO.The FBox allow to define and configure all possible function-alities of the E-Line RIO like manual override permission, us-age of safe state mode, behaviour and colour of the LED’s and so on.In the background, the FBox does use the fast ‘E-Line S-Bus’ protocol for a high speed communication between the mas-ter and the RIO.The following chapter describes the media and parameter mapping to Registers and Flags for individual programming. For efficient PCD programming the E-Line RIO FBox family and templates are suitable for most applications. Only individual pro-gramming (e.g. Instruction List) require standard S-Bus communication.Mode Configuration Register:0 : 0 … 10 V (default) Value scaled within Range Min and Range Max 3 : 0 … 2500 Ω Value scaled within Range Min and Range Max 4 : Pt1000 Value in 1/10°C (23.4 °C → 234)5 : Ni1000 Value in 1/10°C (23.4 °C → 234)6 : Ni1000LS Value in 1/10°C (23.4 °C → 234)8 : 0 … 300 kΩ Value scaled within Range Min and Range Max 9 : Digital inputValue for Input open, <5 V = 0, Input >10 V, 24 VDC = 1Register format:1 byte for each analogue input status. (e.g. b yte 0: AI0byte 1: AI1 byte 2: AI2 byte 3: AI3)Bit 0 Analogue input over-range Bit 1 Analogue input under-rangeStatus is cleared when the input returns to normal stateAnalogue inputsDirect access to the RIO medias with standard S-Bus send and receive telegrams** Time in 0.1 ms (e.g. 2 means 200 us) before sending the first character after line driver activation (only used for S-Bus slave protocol)*** The four registers contain the ASCII characters of the product type.E.g. for PCD1.A2000-A20:0605: 50434431H 0606: 2E413230H 0607: 30302D41H 0608: 32300000HDevice InformationModbus fulfils the requirements for standard communication protocols. It is based on Modbus RTU. The Windows based configu-ration software is required to enable and set up the Modbus communication parameters. The device address can be set up with the rotary switches at the front of the module. Configuration parameters as well as manual override state and value are saved non-volatile. A delay of about one second between a manual state change and non-volatile saving has to be taken into consideration. Device addressf0 … 98 Address is taken from the rotary switchesf99 Address is taken from the device configuration. The address is settable with the E-Line configuration soft-ware.Start-up proceduref Reboot: All outputs are cleared (Off state)f<1 sec. Output in manual operation are set according to the state before power down.f Outputs in automatic modeIs no telegram received after reboot within the “safe state power-on timeout” the module enters as will intothe safe state mode and sets the outputs according to their configured values.On reception of a valid command telegram the outputs are controlled by the communication. When no com-munication update followed within the “safe state com. timeout” the module enters into safe state and setsthe outputs according to their configured values.The following chapter describes the media and parameter mapping to Registers and Flags (=Coils).Supported Modbus services:f Function code 1 (read outputs)f Function code 3 (read registers)f Function code 15 (write multiple outputs)f Function code 16 (write multiple registers)The CRC has to be calculated over all telegram bytes starting with address field up to the last data byte. The CRC has to be attached to the data. Please find an example at the appendix of this document. For more details, please refer the publicly available Modbus documentation .Mode Configuration Register:0 : 0 … 10 V (default) Value scaled within Range Min and Range Max 3 : 0 … 2500 Ω Value scaled within Range Min and Range Max 4 : Pt1000 Value in 1/10°C (23.4 °C → 234)5 : Ni1000 Value in 1/10°C (23.4 °C → 234)6 : Ni1000LS Value in 1/10°C (23.4 °C → 234)8 : 0 … 300 kΩ Value scaled within Range Min and Range Max 9 : Digital inputValue for Input open, <5 V = 0, Input >10 V, 24 VDC = 1Register format:1 byte for each analogue input status. (e.g. b yte 0: AI0byte 1: AI1 byte 2: AI2 byte 3: AI3)Bit 0 Analogue input over-range Bit 1 Analogue input under-rangeStatus is cleared when the input returns to normal stateAnalogue inputsE.g. for PCD1.A2000-A20:1210…1217: 5043H | 4431H | 2E41H | 3230H | 3030H | 2D41H | 3230H | 0000HDevice InformationCRC Generation Example(Source: /docs/PI_MBUS_300.pdf, the following content of this page is copied from the referenced document. In case of any questions, please check out the original source)The function takes two arguments: unsigned char *puchMsg; A pointer to the message buffer containing binary data to be used for generating the CRC unsigned short usDataLen; The quantity of bytes in the message buffer. The function returns the CRC as a type unsigned short.CRC Generation Functionunsigned short CRC16(puchMsg, usDataLen) ;unsigned char *puchMsg ; /* message to calculate CRC upon */unsigned short usDataLen ; /* quantity of bytes in message */{unsigned char uchCRCHi = 0xFF ; /* high byte of CRC initialized */unsigned char uchCRCLo = 0xFF ; /* low byte of CRC initialized */unsigned uIndex ; /* will index into CRC lookup table */while (usDataLen--) /* pass through message buffer */{uIndex = uchCRCHi ^ *puchMsgg++; /* calculate the CRC */uchCRCHi = uchCRCLo ^ auchCRCHi[uIndex];uchCRCLo = auchCRCLo[uIndex];}return (uchCRCHi << 8 | uchCRCLo);}High-Order Byte Table/* Table of CRC values for high-order byte */static unsigned char auchCRCHi[] = {0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40,0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41,0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41,0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40,0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41,0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40,0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40,0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41,0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41,0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40,0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40,0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41,0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40,0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41,0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40, 0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41,0x00, 0xC1, 0x81, 0x40, 0x01, 0xC0, 0x80, 0x41, 0x01, 0xC0, 0x80, 0x41, 0x00, 0xC1, 0x81, 0x40 }; Low-Order Byte Table/* Table of CRC values for low-order byte */static char auchCRCLo[] = {0x00, 0xC0, 0xC1, 0x01, 0xC3, 0x03, 0x02, 0xC2, 0xC6, 0x06, 0x07, 0xC7, 0x05, 0xC5, 0xC4, 0x04,0xCC, 0x0C, 0x0D, 0xCD, 0x0F, 0xCF, 0xCE, 0x0E, 0x0A, 0xCA, 0xCB, 0x0B, 0xC9, 0x09, 0x08, 0xC8,0xD8, 0x18, 0x19, 0xD9, 0x1B, 0xDB, 0xDA, 0x1A, 0x1E, 0xDE, 0xDF, 0x1F, 0xDD, 0x1D, 0x1C, 0xDC,0x14, 0xD4, 0xD5, 0x15, 0xD7, 0x17, 0x16, 0xD6, 0xD2, 0x12, 0x13, 0xD3, 0x11, 0xD1, 0xD0, 0x10,0xF0, 0x30, 0x31, 0xF1, 0x33, 0xF3, 0xF2, 0x32, 0x36, 0xF6, 0xF7, 0x37, 0xF5, 0x35, 0x34, 0xF4,0x3C, 0xFC, 0xFD, 0x3D, 0xFF, 0x3F, 0x3E, 0xFE, 0xFA, 0x3A, 0x3B, 0xFB, 0x39, 0xF9, 0xF8, 0x38,0x28, 0xE8, 0xE9, 0x29, 0xEB, 0x2B, 0x2A, 0xEA, 0xEE, 0x2E, 0x2F, 0xEF, 0x2D, 0xED, 0xEC, 0x2C,0xE4, 0x24, 0x25, 0xE5, 0x27, 0xE7, 0xE6, 0x26, 0x22, 0xE2, 0xE3, 0x23, 0xE1, 0x21, 0x20, 0xE0,0xA0, 0x60, 0x61, 0xA1, 0x63, 0xA3, 0xA2, 0x62, 0x66, 0xA6, 0xA7, 0x67, 0xA5, 0x65, 0x64, 0xA4,0x6C, 0xAC, 0xAD, 0x6D, 0xAF, 0x6F, 0x6E, 0xAE, 0xAA, 0x6A, 0x6B, 0xAB, 0x69, 0xA9, 0xA8, 0x68,0x78, 0xB8, 0xB9, 0x79, 0xBB, 0x7B, 0x7A, 0xBA, 0xBE, 0x7E, 0x7F, 0xBF, 0x7D, 0xBD, 0xBC, 0x7C,0xB4, 0x74, 0x75, 0xB5, 0x77, 0xB7, 0xB6, 0x76, 0x72, 0xB2, 0xB3, 0x73, 0xB1, 0x71, 0x70, 0xB0,0x50, 0x90, 0x91, 0x51, 0x93, 0x53, 0x52, 0x92, 0x96, 0x56, 0x57, 0x97, 0x55, 0x95, 0x94, 0x54,0x9C, 0x5C, 0x5D, 0x9D, 0x5F, 0x9F, 0x9E, 0x5E, 0x5A, 0x9A, 0x9B, 0x5B, 0x99, 0x59, 0x58, 0x98,0x88, 0x48, 0x49, 0x89, 0x4B, 0x8B, 0x8A, 0x4A, 0x4E, 0x8E, 0x8F, 0x4F, 0x8D, 0x4D, 0x4C, 0x8C,0x44, 0x84, 0x85, 0x45, 0x87, 0x47, 0x46, 0x86, 0x82, 0x42, 0x43, 0x83, 0x41, 0x81, 0x80, 0x40 };PCD1.G2100-A10PCD1.K0206-005PCD1.K0206-025Saia-Burgess Controls AGBahnhofstrasse 18 | 3280 Murten, Switzerland T +41 26 580 30 00 | F +41 26 580 34 ********************|Order detailsTerminal set 32304321-003-S。

Firmware for ioLogik E1200 Series (E1210) Release NotesSupported Operating SystemsNotesChangesApplicable ProductsBugs FixedN/A• Fixed inaccurate counter value when using Modbus to start a pulse (E1210/E1212/E1213).• Fixed opposite on/off pulse width display on web console (E1211/E1212/E1214).• Fixed that the offset scaling value will reset after changing the Alias name (E1260).• Fixed self-rebooting when entering URL in the browser for the configuration file.• Fixed EDS file import connection error.• Fixed failure when using save counter on power failure and reset counter at the same time (E1210/E1212/E1213).• Fixed inaccurate counter value when using high frequency (E1210/E1212/E1213).• Fixed that the trap community name is not included in the export file.• Fixed that EtherNet/IP cannot use the “Set Attribute Single” service.• Added an enable RESTful API setting in the configuration file.EnhancementsN/AioLogik E1210, ioLogik E1210-T• EtherNet/IP registration on Moxa’s licensing website is no longer required.• Added case insensitive content-length for RESTful API.New FeaturesN/AN/ASupported Operating SystemsNotesChangesApplicable ProductsBugs Fixed• Added SNMP Trap Community Setting to the web console.• Added a note on the password settings page that passwords are limited to 16 characters.• Fixed DHCP lease time did not ask for extension when half of the lease time elapsed.• Closed IP forwarding function (Port 0).• Closed UDP Port 161 when SNMP agent is disabled.• Fixed RESTful API header case-sensitive issue.• Fixed invalid token issue on login page when using Firefox.EnhancementsN/AioLogik E1210-T, ioLogik E1210• Added OPTIONS method for RESTful API.• Added quick access URI for RESTful API.New FeaturesN/A• This version of the firmware only works with ioSearch v2.0 or later versions.• To prevent system failure, only update the next or the previous released firmware version to prevent from system failure.Supported Operating SystemsNotesChangesApplicable ProductsBugs FixedN/A• Fixed file transfer problems when using the Chrome browser (e.g., firmware update, configuration import or export).EnhancementsN/AioLogik E1210, ioLogik E1210-T• Added the EtherNet/IP protocol.• Added RESTful API.• Added new registers for the Modbus/TCP protocol.• Added new OIDs for the SNMP protocol.• Modbus, EtherNet/IP, and RESTful services can be disabled (enabled by default).• Added sending heartbeat to port 9500 of MX-AOPC UA Server after the heartbeat function is enabled.• Increased password length from 8 to 16 characters.• Added a function to check special characters to prevent Cross-Site Scripting.• Passwords are now sent using the POST method instead of the GET method.New FeaturesN/AN/ASupported Operating SystemsNotesChangesApplicable ProductsBugs FixedN/AN/AEnhancementsN/AioLogik E1210, ioLogik E1210-T• Improved protocol efficiency for the ioLogik 2500 Series.New FeaturesN/AN/ASupported Operating SystemsNotesChangesApplicable ProductsBugs FixedN/A• Unable to disable the P2P heartbeat interval.• When the P2P client heartbeat is larger than 256 the time interval is incorrect.EnhancementsN/AioLogik E1210, ioLogik E1210-T• Supports ioLogik 2500 expansion mode.• Supports setting an initial value for a counter.New FeaturesN/AN/ASupported Operating SystemsNotesChangesApplicable ProductsBugs FixedN/A• The counter storage is deleted when the power fails.EnhancementsN/AioLogik E1210-T, ioLogik E1210• Supports SNMP protocol.• Added P2P heartbeat function.New FeaturesN/A• This version of firmware only works with ioSearch v1.5 or later versions.• Use the web console when upgrading the firmware from v1.0 to v1.10.Supported Operating SystemsNotesChangesApplicable ProductsBugs Fixed• Ensured that the system works properly after unstable power conditions.N/AEnhancementsN/AioLogik E1210, ioLogik E1210-TN/ANew FeaturesN/AN/ASupported Operating SystemsNotesChangesApplicable ProductsBugs Fixed• Improved firmware upgrading speed.• Removed Modbus/TCP ID checking mechanism.N/AEnhancementsN/AioLogik E1210, ioLogik E1210-T• Added "Locating I/O" function in General Settings.• Added Modbus address function code=0x08 for “ECHO” function.• Counter overflow status displayed in Channel Settings can be cleared manually.New FeaturesN/A• This version of the firmware only works with ioSearch v1.5 or later versions.• Use the web console when upgrading the firmware from v1.0 to v1.9.。

AMS设备微码升级方案随着科技的发展，越来越多的设备需要进行微码（firmware）升级。

AMS设备是指运用了先进制造技术，能够将安全性、稳定性以及可用性融入到设备及系统功能中的自动化系统。

AMS设备的微码升级方案是指通过对设备中的微码进行更新，从而提高设备的性能、安全性和可靠性。

1.评估升级需求：首先，需要对设备的性能和功能进行评估，确定是否需要进行微码升级。

要考虑的因素包括设备的硬件和软件配置、设备的使用情况、设备的安全性需求等。

2.开发升级计划：根据评估结果，制定一个详细的升级计划。

升级计划应包括升级的目标，升级的内容和功能，升级的时间表，以及升级的流程和方法等。

3.开发微码升级包：根据升级计划，开发微码升级包。

升级包应包括需要更新的微码文件，以及更新微码的工具和方法。

4.测试微码升级包：在将微码升级包应用到实际设备之前，需要对微码升级包进行测试。

测试应包括对升级包的功能和性能进行验证，以及对升级包的稳定性和安全性进行测试。

5.准备升级环境：在准备升级环境之前，需要对设备进行备份。

升级环境应包括一台能够与设备进行通信的计算机，以及能够在设备上进行微码升级的工具和软件。

6.实施微码升级：将微码升级包应用到设备中。

这一步包括将微码升级包上传到设备中，然后通过升级工具和软件进行微码的更新。

7.验证微码升级：在完成微码升级之后，需要进行验证，确保升级成功并且设备正常工作。

验证应包括对设备功能和性能的测试，以及对设备的安全性进行评估。

8.更新文档和记录：及时更新文档和记录，记录微码的升级过程和结果，以及出现的问题和解决方案。

这些记录有助于后续微码升级的参考。

以上是一个AMS设备微码升级方案的简要步骤。

需要注意的是，在实施微码升级前，必须确保设备的备份和数据的安全性，以避免因微码升级而导致数据丢失或损坏的风险。

此外，由于微码升级涉及到设备的性能和功能的改变，可能会对设备的稳定性和可用性产生影响，因此应事先进行充分的测试和验证，确保升级的稳定性和安全性。

中国人民银行微码版本升级实施方案Version 1日立数据系统公司1 当前使用情况及目标版本当前存储微码版本为0781-A/S，升级目标版本为0783/D。

2 升级步骤升级前的注意事项：●升级之前需要做好数据备份。

●请打开HDLM的AutoFailBack 参数，方法见附录二中“打开AFB方法”升级的具体步骤如下：1.使用网线连接存储的控制器0(CTL0)。

使用IE，输入地址192.168.0.16，查看当前微码版本及硬件运行状态第一行的最后写着微码版本为：0781/A-S硬件状态为Ready2.登录SNM软件，进入AMS200管理界面选择“Edit”菜单中的“Add”选项，添加要管理的AMS200弹出如下对话框输入Controller 0(CTL0)的IP地址点击OK显示这台AMS200已经添加。

（注：实际情况中序列号会根据现实情况显示）切换为Maintenance Mode（鼠标点击图中红圈标记按钮，然后Ctrl+Shift+E 进行切换）●双击需要管理的AMS200序列号，进入管理界面●点击图中红圈标记按钮，进入configuration setting,如图在configuration setting中选择“Micro Update”，进入升级微码选项：Micro Update选项卡如下图所示：把需要升级的微码放在C的某一目录下，点击“RAED”选项，如图所示：在上图中，点击“Browse”，在弹出的对话框中找到需要升级的指定目录！点击OK，弹出如下对话框表示读取微码成功：读取微码成功后，点击“Micro Update”选项卡中“DOWNLOAD”：弹出版本信息确认对话框，如图所示：选择“OK”，弹出如下对话框，选择“No”（缺省值是Yes），之后开始下载微码，如图所示(请注意这个时候升级的是controller 0，需要时间大约10分钟。

)：Download完成后弹出如下对话框表示Download成功。

AMS设备微码升级方案陕西XXHDS设备微码升级方案XX公司20__年十一月目录一、概述.二、版本分析.1.目前设备微码版本情况.2.当前本.3.升级后微码的版本情况.三、微码升级的过程.四、升级注意事项4.五、回退方案一、概述XX公司（HitachiDataSystem，简称HDS）目前为陕西XX提供了4台AMS000作为生产系统存储设备。

HDS公司计划将该存储设备进行微码升级，修正其中可能存在的错误，进一步提高存储系统的高可用性，充分保障用户数据完整与一致。

本次升级只针对7层的AMS000（770033）进行。

二、版本分析1.目前设备微码版本情况设备名称设备用途序列号微码版本AMS000Product770XXXX3076-H2.当前本HDSAMS存储设备的稳定微码版本如下：设备名称微码版本AMS200078-SAMS500078-MAMS000078-H以上版本为HDS公司推荐的的微码版本，有多项内容，可解决存储与相关运行平台潜在问题，不致影响生产系统的正常运作。

3.升级后微码的版本情况设备名称设备用途序列号微码版本AMS000Product770XXXX3078-H三、微码升级的过程本次AMS微码升级采用offline升级方式。

升级完成后存储会重启，整个升级过程持续约半小时左右。

微码升级步骤：确认没有主机访问磁盘阵列。

使AMS进入维护模式。

进入web管理页面，当提示输入用户和密码时，输入maintenancosyu9500。

注意画面显示MaintenanceMode，点击Microprogram。

选择微码位置及微码安装方式，点击install。

开始安装微码，微码安装完成后按OK。

回到维护模式主画面。

按GotoNormalMode.磁盘阵列自动Reboot。

磁盘阵列重起(Reboot)完成后，检查磁盘阵列的状态，包括微码版本。

四、升级注意事项从078及以下版本升级需要采用OFFLINE的方式。

07SM1011. IntroductionIn this document, we will discuss the key features and functionalities of the 07SM101 model. The 07SM101 is a state-of-the-art machine learning algorithm developed for solving complex problems in various domains. It has been widely used in industries such as finance, healthcare, and e-commerce to gain insights and make data-driven decisions. In this document, we will provide an overview of the model, explain its core concepts, and discuss its advantages and limitations.2. Model ArchitectureThe 07SM101 model is based on a deep neural network architecture, specifically designed to handle large-scale datasets and complex patterns. It consists of multiple layers of artificial neurons, each responsible for processing and transforming the input data. The architecture includes input layers, hidden layers, and an output layer. The input layer receives the raw data, which is then processed by the hidden layers to extract relevant features. Finally, the output layer produces the desired prediction or classification result.3. Key Features3.1. FlexibilityThe 07SM101 model is highly flexible and can be applied to a wide range of problem domains. It can handle both numericaland categorical data, making it suitable for various types of machine learning tasks such as regression, classification, and clustering. The model can also handle both structured and unstructured data, allowing for the analysis of text, images, and other complex data types.3.2. ScalabilityThe 07SM101 model is designed to handle large-scale datasets efficiently. It can effectively process and analyze millions of data points, making it suitable for big data applications. The model’s scalability is achieved through the use of parallel processing and distributed computing techniques, which allow for the efficient utilization of computational resources.3.3. High AccuracyOne of the key advantages of the 07SM101 model is its high accuracy in prediction and classification tasks. The model is trained on large datasets using advanced optimization algorithms, allowing it to learn complex patterns and make precise predictions. This high accuracy makes the model ideal for applications where accurate predictions are critical, such as fraud detection and disease diagnosis.3.4. InterpretabilityUnlike some black-box machine learning models, the07SM101 model provides interpretability, allowing users to understand the reasoning behind its predictions. The model can provide feature importance scores, indicating the most significant variables that contribute to the prediction. Thisinterpretability feature is particularly useful in domains where transparency and explainability are important, such as healthcare and finance.4. LimitationsWhile the 07SM101 model has many advantages, it also has certain limitations that should be taken into account:4.1. Computational Resource RequirementsDue to its architecture and complexity, the 07SM101 model requires significant computational resources, including memory and processing power. This can be a limitation for organizations with limited resources or for applications where real-time predictions are required.4.2. Training Data RequirementsTo achieve high accuracy, the 07SM101 model requires a large amount of training data. The availability of such data can be a challenge in some domains or for small organizations. Additionally, the quality and diversity of the training data can significantly impact the model’s performance.4.3. Interpretability Trade-offWhile the 07SM101 model provides interpretability, there is often a trade-off between interpretability and model complexity. Highly interpretable models may not have the same level of accuracy as more complex black-box models. Therefore, users need to carefully consider the trade-offbetween interpretability and accuracy based on the specific requirements of their application.5. ConclusionThe 07SM101 model is a versatile and powerful machine learning algorithm that has proven to be effective in solving complex problems in various domains. Its flexibility, scalability, and high accuracy make it suitable for a wide range of applications. However, organizations should consider its computational resource requirements, training data requirements, and interpretability trade-offs before adopting the model. Overall, the 07SM101 model provides a valuable tool for data analysis and decision-making in today’s data-driven world.。

紫晶文档一体化管理系统用户操作手册编制单位：成都宏博科技进展有限公司编制人：________________________编制日期：________________________审核人：________________________审核日期：________________________0文本控制0.1修改记录0.2校对记录0.3分发记录说明：若是您收到一份本文档的电子版本，请将您的姓名等相关信息填写在相应位置，作为文档控制需要。

若是您收到一份本文档的文字版本，请将您的姓名等相关信息填写在相应位置，作为文档控制需要。

目录0文本控制20.1修改记录 (2)0.2校对记录 (2)0.3分发记录 (2)1安装和卸载91.1安装和注册 (9)1.1.1安装91.1.2注册171.2卸载 (19)2系统利用说明222.1系统登录 (22)2.2系统利用流程 (24)3系统菜单263.1系统 (26)3.1.1系统参数设置263.1.2库参数设置283.1.3用户管理313.1.4收发文年度设置373.1.5分类大纲管理383.1.6分类表管理403.1.7主题辞库设置413.1.8数据管理443.1.9修改系统初始化口令473.1.10修改用户口令 (48)3.2数据库/全文保护 (49)3.2.1强制解锁493.2.2数据库系统处置503.2.3收发文调整553.2.4机读目录数据转出583.2.5日记库检索603.2.6日记库加密导出613.2.7阅读加密日记文件623.2.8全文目录管理633.2.9全文文件管理663.2.10全文扫描管理 (68)3.2.11全文文件加密紧缩 (69)3.2.12全文文件解密还原 (70)3.3公函管理/归档 (71)3.3.1收文管理713.3.2发文管理883.3.3自动归档893.3.4人工归档933.3.5封面1003.3.6归档（卷内）文件目录1043.3.7备考表1143.3.8脊背1163.3.9案卷目录1173.3.10档号批量替换 (123)3.3.11档号处置 (124)3.3.12卷（盒）号批量调整 (126)3.3.13案卷（盒）批量处置 (128)3.3.14件号处置 (130)3.3.15文件级批量替换 (131)3.3.16分卷（盒）及合卷（盒） (133)3.4编目检索/利用 (135)3.4.1分类检索1353.4.2快速检索和高级检索1363.4.3案卷级检索1403.4.4文件级检索1453.4.5收文检索1503.4.6发文检索1543.4.7借阅参数设置1583.4.8借阅管理1593.4.9归还管理1653.4.10催还管理 (166)3.5鉴定/移交 (167)3.5.1鉴定记录1673.5.2移交记录11713.5.3移交记录21743.6报表/打印 (178)3.6.1报表打印1783.6.2脊背批量打印1803.6.3主题辞表打印1823.7数据互换/网上发布 (183)3.7.1数据互换1833.7.2Internet网上数据发布1873.8帮忙 (188)3.8.1关于1883.8.2利用帮忙1884Vista专题1904.1安装 (190)4.2卸载 (191)4.3运行 (192)4.4备份 (192)5图表目录1941安装和卸载1.1安装和注册1.1.1安装重要提示：在Vista系统中安装紫晶文档一体化管理系统之前请先阅读第错误!未找到引用源。

E M C C o m p o n e n t sDecember 2015 Common Mode FiltersFor high-speed differential signal line(USB2.0, LVDS, etc.)MCZ-AH SeriesMCZ1210AH TypeMCZ1210AH[0504 inch]** Dimensions Code JIS[EIA]REMINDERS FOR USING THESE PRODUCTSBefore using these products, be sure to request the delivery specifications.SAFETY REMINDERSPlease pay sufficient attention to the warnings for safe designing when using these products.The storage period is less than 12 months. Be sure to follow the storage conditions (T emperature: 5 to 40°C, Humidity: 10 to 75% RH or less).If the storage period elapses, the soldering of the terminal electrodes may deteriorate.Do not use or store in locations where there are conditions such as gas corrosion (salt, acid, alkali, etc.).Before soldering, be sure to preheat components.The preheating temperature should be set so that the temperature difference between the solder temperature and chip temperature does not exceed 150°C.Soldering corrections after mounting should be within the range of the conditions determined in the specifications.If overheated, a short circuit, performance deterioration, or lifespan shortening may occur.When embedding a printed circuit board where a chip is mounted to a set, be sure that residual stress is not given to the chip due to the overall distortion of the printed circuit board and partial distortion such as at screw tightening portions.Self heating (temperature increase) occurs when the power is turned ON, so the tolerance should be sufficient for the set thermal design.Carefully lay out the coil for the circuit board design of the non-magnetic shield type.A malfunction may occur due to magnetic interference.Use a wrist band to discharge static electricity in your body through the grounding wire.Do not expose the products to magnets or magnetic fields.Do not use for a purpose outside of the contents regulated in the delivery specifications.The products listed on this catalog are intended for use in general electronic equipment (AV equipment, telecommunicationsequipment, home appliances, amusement equipment, computer equipment, personal equipment, office equipment, measurement equipment, industrial robots) under a normal operation and use condition.The products are not designed or warranted to meet the requirements of the applications listed below, whose performance and/or quality require a more stringent level of safety or reliability, or whose failure, malfunction or trouble could cause serious damage to society, person or property.If you intend to use the products in the applications listed below or if you have special requirements exceeding the range or conditions set forth in the each catalog, please contact us.(1) Aerospace/Aviation equipment(2) T ransportation equipment (cars, electric trains, ships, etc.)(3) Medical equipment(4) Power-generation control equipment (5) Atomic energy-related equipment (6) Seabed equipment(7) T ransportation control equipment(8) Public information-processing equipment (9) Military equipment(10) Electric heating apparatus, burning equipment (11) Disaster prevention/crime prevention equipment (12) Safety equipment(13) Other applications that are not considered general-purpose applicationsWhen designing your equipment even for general-purpose applications, you are kindly requested to take into consideration securingprotection circuit/device or providing backup circuits in your equipment.REMINDERSCommon Mode FiltersFor high-speed differential signal line (USB2.0, LVDS, etc.)FEATURESwith virtually no affect on the high-speed differential transmission line signal.APPLICATIONPART NUMBER CONSTRUCTIONOPERATING TEMPERATURE RANGE, PACKAGE QUANTITY, PRODUCT WEIGHTThe Storage temperature range is for after the circuit board is mounted.Overview of MCZ1210AH TypeMCZ1210AH360L2TA0GSeries nameL×W×T DimensionsProduct internalcode Impedance Number of linesPackaging styleInternal code(mm)(:) at 100MHz 1210 1.25×1.0×0.5AH36036L22 linesTT apingA0GTypeTemperature rangePackage quantityIndividual weightOperating temperature °CStoragetemperature°C (pieces/reel) mg MCZ1210AH –40 to +85–40 to +854,000 3.0Product compatible with RoHS directiveHalogen-freeCompatible with lead-free soldersRECOMMENDED REFLOW PROFILEPreheating Soldering PeakTemp.TimeTemp.Time Temp.Time T1T2t1T3t2T4t3150°C 180°C60 to 120s230°C30 to 60s 250 to 260°C10s max.SHAPE & DIMENSIONSDimensions in mm RECOMMENDED LAND PATTERN CIRCUIT DIAGRAMDimensions in mmELECTRICAL CHARACTERISTICSMeasurement equipmentEquivalent measurement equipment may be used.Measurement equipmentEquivalent measurement equipment may be used.Common mode impedance [100MHz]DC resistance[1 line]Rated current Rated voltage InsulationresistancePart No.(:)Tolerance(:)max.(mA)max.(V)max.(M:)min.36±25% 1.00200510MCZ1210AH360L2T A0G 90±25% 1.75100510MCZ1210AH900L2T A0G 200±25% 4.00100510MCZ1210AH201L2T A0G 300±25% 4.50100510MCZ1210AH301L2T A0GMeasurement item Product No.ManufacturerCommon mode impedance E4991A+16192A Keysight TechnologiesDC resistance T ype-7561Y okogawaInsulation resistance4339B Keysight TechnologiesProduct No.ManufacturerE4991A+16192A Keysight T echnologiesPACKAGING STYLEDimensions in mmType A B K tMCZ1210AH 1.15±0.1 1.4±0.1 1.0max.0.25±0.05Dimensions in mm。

DATASHEETDataOrdering dataNote (Delivery capacity)Phased-out product Product type description AES 1235101170049Article number (ordernumber)EAN (European Article4030661297118 Number)27-37-18-19eCl@ss number, version12.027-37-18-19eCl@ss number, version11.027-37-18-19eCl@ss number, version9.0EC001449ETIM number, version7.0EC001449ETIM number, version6.0Available until31.12.2023Approvals - StandardsCertificates BGcULusGeneral dataStandards BG-GS-ET-14BG-GS-ET-20EN IEC 62061EN ISO 13849-1EN IEC 60947-5-1EN IEC 60947-5-3EN IEC 60947-5-5EN IEC 60204-1EN IEC 60947-1Climatic stress EN 60068-2-3BG-GS-ET-14Enclosure material Glass-fibre reinforced thermoplastic, ventilated Gross weight240 gGeneral data - FeaturesStop-Category0Wire breakageYesdetectionCross-circuit detection YesFeedback circuit YesYesAutomatic resetfunctionReset afterYesdisconnection of supplyvoltageEarth connectionYesdetectionYesIntegral systemdiagnostics, statusNumber of LEDs12Number of normallyclosed (NC)1Number of normallyopen (NO)Number of undelayed2semi-conductor outputswith signaling functionNumber of safety2contactsNumber of signalling2outputsSafety classificationStandards EN ISO 13849-1EN IEC 61508Safety classification - Relay outputsdPerformance Level, uptoCategory3PFH value 1.00 x 10⁻⁷ /hNotice for max. 50,000 switching cycles/year and max. 80% contact load2Safety Integrity Level(SIL), suitable forapplications inMission time20 Year(s)Mechanical data20,000,000 OperationsMechanical life,minimumMounting Snaps onto standard DIN rail to EN 60715Mechanical data - Connection techniqueTerminal designations IEC/EN 60947-1Termination rigid or flexibleScrew terminals M20 x 1.5Cable section, minimum0.25 mm²2.5 mm²Cable section,maximumTightening torque of0.6 NmClipsMechanical data - DimensionsWidth22.5 mmHeight100 mmDepth121 mmAmbient conditionsDegree of protection ofIP40the enclosureDegree of protection ofIP54the mounting spaceDegree of protection ofIP20clips or terminalsAmbient temperature+0 ... +55 °CStorage and transport-25 °Ctemperature, minimumStorage and transport+70 °Ctemperature, maximumResistance to vibrations10...55 Hz, Amplitude 0.35 mm, ± 15 % Restistance to shock30 g / 11 msAmbient conditions - Insulation valuesRated impulse4 kVwithstand voltage UimpOvervoltage category IIIDegree of pollution2Electrical dataFrequency range50 Hz60 HzOperating voltage24 VAC -15 % / +10 %24 VDC -10 % / +20 %Ripple voltage10 %Thermal test current 6 ARated operating voltage24 VACRated operating voltage24 VDC20.4 VACRated AC voltage forcontrols, 50 Hz,minimum26.4 VACRated control voltage atAC 50 Hz, maximum20.4 VACRated AC voltage forcontrols, 60 Hz,minimum26.4 VACRated control voltage atAC 60 Hz, maximum20.4 VDCRated AC voltage forcontrols at DC minimumRated control voltage at28.8 VDCDC, maximum5 WElectrical powerconsumption0.1 ΩContact resistance,maximumin new stateNote (Contactresistance)Drop-out delay in case80 msof power failure,typically20 msDrop-out delay in caseof emergency, typically100 msPull-in delay atautomatic start,maximum, typically20 msPull-in delay at RESET,typicallyMaterial of the contacts,Ag-Ni 10 and 0.2 µm gold-plated electricalElectrical data - Safe relay outputsVoltage, Utilisation230 VACcategory AC-156 ACurrent, Utilisationcategory AC-15Voltage, Utilisation24 VDCcategory DC-136 ACurrent, Utilisationcategory DC-13Switching capacity,10 VDCminimum10 mASwitching capacity,minimum250 VACSwitching capacity,maximum8 ASwitching capacity,maximumElectrical data - Digital inputs10 … 30 VDCInput signal, HIGHSignal "1"0 … 2 VDCInput signal, LOW Signal"0"40 ΩConduction resistance,maximumElectrical data - Digital OutputVoltage, Utilisation24 VDCcategory DC-120.1 ACurrent, Utilisationcategory DC-12Electrical data - Relay outputs (auxiliary contacts) Switching capacity,24 VDCmaximumSwitching capacity,2 AmaximumElectrical data - Electromagnetic compatibility (EMC)EMC rating EMC-DirectiveIntegral system diagnosis (ISD)Note (ISD -Faults)The following faults are registered by the safety monitoring modules and indicated by ISD.Faults Failure of the safety relay to pull-in or drop-outFailure of door contacts to open or closeCross-wire or short-circuit monitoring of the switch connectionsInterruption of the switch connectionsFault on the input circuits or the relay control circuits of the safety monitoring moduleOther dataNote (applications)Safety sensorGuard systemNoteNote (General)Inductive loads (e.g. contactors, relays, etc.) are to be suppressed by means of asuitable circuit.Wiring exampleNote (Wiring diagram)The wiring diagram is shown with guard doors closed and in de-energised condition.To secure a guard door up to PL d and Category 3Monitoring 1 guard door(s), each with a magnetic safety sensor of the BNS rangeThe ISD tables (Intergral System Diagnostics) for analysis of the fault indications andtheir causes are shown in the appendix.Expansion of enable delay time: The enable delay time can be increased from 0.1 s to1 s by changing the position of a jumper link connection under the cover of the unit.The feedback circuit monitors the position of the contactors K3 and K4.Start push button: A start push button (NO) can optionally be connected into thefeedback circuit. With the guard door closed, the enabling paths are then not closeduntil the start push button has been operated.If only one external relay or contactor is used to switch the load, the system can beclassified in Control Category 3 to ISO 13849-1, if exclusion of the fault “Failure of theexternal contactor” can be substantiated and is documented, e.g. by using a reliabledown-rated contactor. A second contactor leads to an increase in the level of securityby redundant switching to switch the load off.If neither start button nor feedback circuit are connected, a jumper connection must bemounted between X1 and A1.Modification for 2 NC contacts: The safety monitoring module can be modified tomonitor two NC contacts by bridging the terminals A1 and X2. In this configuration, theshort-circuit detection becomes inoperative.Ordering codeProduct type description:AES 123(1)(1)56without start-up test6with start-up testDocumentsOperating instructions and Declaration of conformityAES 1235 / AES 1236(245.3 kB, 10.05.2019, Revision D)BG-test certificateAES and BNS - BG-GS-ET-14 - AES 1135 / AES 1136 / AES 1145 / AES 1146 / AES 1155 / AES 1156 / AES 1165 / AES 1166 / AES 1175 / AES 1176 / AES 1235 / AES 1236 / AES 1265 / AES 1266 / AES 1185(1.4 MB, 10.05.2019, Revision F)BG-test certificateAES - BG-GS-ET-20 - AES 1135 / AES 1136 / AES 1145 / AES 1146 / AES 1155 / AES 1156 / AES 1165 / AES 1166 / AES 1175 / AES 1176 / AES 1235 / AES 1236 / AES 1265 / AES 1266(738.9 kB, 10.05.2019, Revision D)UL CertificateAES / FWS / BNS / BN(415.3 kB, 01.08.2019)Wiring example (electr. wiring)AES 123x(19.6 kB, 10.05.2019)Wiring example (electr. wiring)AES 123x(19.7 kB, 10.05.2019)InfoAES 1135 / AES 1136 / AES 1165 / AES 1166 / AES 1185 / AES 1235 / AES 1236(34.3 kB, 30.06.2021)SISTEMA-VDMA library(659.5 kB, 23.03.2023)PicturesProduct picture (catalogue individual photo)ID: kaes1f09| 711.0 kB | .jpg | 265.642 x 529.167 mm - 753 x 1500 px - 72 dpi| 84.7 kB | .png | 74.083 x 147.461 mm - 210 x 418 px - 72 dpiWiring exampleID: maes1l11| 34.0 kB | .cdr || 143.8 kB | .jpg | 352.778 x 408.517 mm - 1000 x 1158 px - 72 dpiWiring exampleID: kaes1l41| 34.1 kB | .cdr || 139.5 kB | .jpg | 352.425 x 396.875 mm - 999 x 1125 px - 72 dpiK.A. Schmersal GmbH & Co. KG, Möddinghofe 30, 42279 WuppertalThe details and data referred to have been carefully checked. Images may diverge from original. Further technical data can be found in the manual. Technical amendments and errors possible.Generated on: 27/07/2023, 01:44。

金赛讯（天津）电子技术有限公司SM-2007数字场强仪使用手册频率测量范围:5-870MHz第一次使用本产品的用户请仔细阅读本使用手册。

如有何需要，请向生产商查询。

目录一、SM-2007数字场强仪概述 (3)二、面板功能 (4)三、详细操作指南 (6)1、开机 (6)2、频道测量功能 (7)3、斜率测量功能 (9)4、频道极限扫描功能 (10)5、频谱扫描功能 (13)6、载噪比测量功能 (14)7、干线电压测量功能 (14)8、仪器基础参数设置功能 (15)四、仪器供电电源 (25)五、技术资料 (26)一、SM-2007数字场强仪概述该产品是我公司最新研发的用于有线电视数字网改造的测量仪器。

其主要功能为测量QAM数字信号及模拟信号。

可测量项目包括：平均功率测量，MER测量，BER测量，星座图显示，频道测量，斜率测量，频道极限扫描测量，频谱扫描，载噪比测量，干线电压测量等功能。

根据使用场合的不同作相对应的选择。

内部处理芯片采用目前国际上最先进的测试仪器专用微处理器，具有功能全、处理速度快、静态耗电量极低、体积小和可靠性高等特点，外围电路根据相应功能使用专用集成块设计。

外观采取人体力学原理，可单手握紧并操作。

二、面板功能仪器简图图1-1 仪器面板说明见图1-1(1) 射频输入口(RF INPUT)：此接头是可更换的，根据用户需要可更换成BNC型或F型。

(2) LCD图形显示器：根据所选择的功能显示所测量的各种参数，带有LED背景光源，而显示对比度由仪器根据环境自动调节。

(3) 功能软键：由F1 -- F4四键组成，随LCD显示界面内容不同而具有不同的功能。

(4) 导向键：由上下左右箭头组成，方便您选择相应的选项。

(5) 数字键：由0-9十个数字和[•]、[+/−]组成，方便完成各项数据的输入。

在主界面下，数字键功能如下：1：频道测量2：斜率测量3：频道极限扫描测量4：频谱扫描5：载噪比测量6：干线电压测量7：仪器基础参数设置(6) 电源开关键(7) 确认键(ENTER)(8) 删除键(C/S)(9) 频道极限扫描测量键(10) 参数设置键(11) 充电插孔(12) 充电指示灯三、详细操作指南1、开机按动电源开关键[POWER]，开机显示公司名称、仪器型号及出厂序号，随后自动进入仪器主界面，如图2-1所示。

EC12E2430401Incremental Type Absolute Type194Power Push Slide Rotary Encoders Jog Shuttle Telephone-hook Detector Vibration Sensors Dual-in-line Package Type Multi Control Devices TACTInsulated shaft type with a push-on switch and other features has a wide variety of applications.A 12mm sized unit achieved high resolution,12 pulse /12detent and 24 pulse / 24 detent.Used a new structure for the shaft and bushing, and achieved a high precision, responsive system.Also available with a 0.5 mm push switch.Incremental type.0.5mA 5V DCWithout detentOther15,000 cycles 30,000 cyclesRating ItemsSpecificationsOperating lifeFeaturesTypical SpecificationsProducts LineControls for image and sound devices, including DVD players, mini component stereos, CD players, portable audio players and monitorsControls for audio mixers and electronic instrumentsApplicationsProducts No.DrawingNo.Minimum packingunit pcs.Detent torque ResolutionLength ofoperating section mm21,2001313123131VerticalNumber of detent 1224WithoutStandard 3 to 20 mN m1520251517.520258.520258.520252025Lightest jog 3 2 mN mStandard 3 to 20 mN mLightest jog 3 2 mN mLight 10mN m max.Standard 25 15 mN mEC12E1220407EC12E1220406EC12E1220405EC12E1240405EC12E1240406EC12E1220301EC12E1240301EC12E24204A7EC12E24204A2EC12E24204A8EC12E24204A9EC12E2420301EC12E24404A8EC12E24404A6EC12E2440301EC12E243040420EC12E24104A6EC12E2430401With High Collar TypeOperatingforce of switch N Travel of push-onswitchmm Operatingdirection12248.58.512mm Size Insulated Shaft Type Encoder VarietyEC12E SeriesIncremental Type Absolute Type195PowerPush Slide RotaryEncodersJog Shuttle Telephone -hookDetector Vibration Sensors Dual-in-line Package Type Multi Control Devices TACT75153.523.5surfaceMounting ø6.6(0.6)(0.8)12.4(8.2)14(10.2)13.2ø64.53.5LM1R 15(5)(0.8)23.5ø6.8ø64.5Mounting surface1412.4(8.2)(10.2)13.2Products LineWith Switch Type Products No.Drawing No.Numberof detent Resolution Length of operating section (mm)4Vertical241220252520302530Standard 3 to 20 mN mStandard 25 15 mN mHeavy 40 15 mN m2412WithoutEC12E2420802EC12E1220813EC12E2420801EC12E2430804EC12E2420803EC12E2430803EC12E2460802Operating force of switch NTravel of push-on switchmm Operating direction 5Vertical24Standard 3 to 20 mN mLightest jog 3 2 mN m 360.5242020252025EC12E2424407EC12E24244A3EC12E2424404EC12E2444400EC12E24444A33017.5EC12E24244A4EC12E24444A2Detenttorque950Minimum packingunit (pcs.)1,200Minimum packing unit (pcs.)Products No.Drawing No.Number of detent Resolution Length of operating section (mm)Operatingforce of switch N Travel of push-on switchmm Operating direction Detenttorque No nuts or washers attached. If necessary, contact us.NoteFor other products, check varieties on P.197For other detailed specifications, see P.198Dimensions7.552.12213.2BA C 3-ø1 hole13.2227.52.15A C B3-ø1 holeModelStyleShort shaftNo.12LM117.5R 152072512PC board mounting holedimensionsViewed from mounting faceUnit : mmWith Bushing Type 12mm Size Insulated Shaft Type Encoder Variety EC12E SeriesIncremental Type Absolute Type196Power Push Slide Rotary Encoders Jog Shuttle Telephone-hook DetectorVibration Sensors Dual-in-line Package Type Multi Control Devices TACTDimensionsUnit : mm3.58.55 2.651.2(0.6)2ø63.5(0.8)ø6.6Mounting surface1412.4(8.2)ø3.15(10.2)13.25.22.113.2227.52.15A C B3-ø1 holeModelStyleHollow shaftNo.3PC board mounting holedimensionsViewed from mounting face13.223-ø122.15C A B7.5holeWith bushing42.50.47XX Y Locating lug detailY With push-on switch512mm Size Insulated Shaft Type Encoder Variety EC12E SeriesL 77LM12025R 17121230123017.5LM1R 152********12.4(8.2)142Mounting surface3.5M9G 0.75L 3.55.5LM14.5ø6(10.2)13.281R 13.5LM16(5)R 10.5(0.8)23.5ø6.8Switch travelMounting surface1412.4(8.2)(10.2)13.24.5ø6D E13.222A C D EB577.52.15-ø1 holeIncremental Type Absolute Type197Power Push Slide Rotary EncodersJog ShuttleTelephone -hookDetector Vibration Sensors Dual-in-line Package Type Multi Control Devices TACTVarietyShaft DimensionsFlat TypeUnit : mmWith high collar typeLM 1R 14.50.5ø6LM 1R 117.52022.5255771212303.54.5ø613.525.5L BLM 1Mounting surfaceR 1With bushing typeLM 1R 120253035L B7712127121212Vertical typeDetail dimensionsExcept 12 detent.Detail dimensions 12mm Size Insulated Shaft EncodersIncrementalType Absolute Type198Power Push Slide RotaryEncoders Jog Shuttle Telephone-hook Detector Vibration Sensors Dual-in-line Package Type Multi Control Devices TACT50V ACVoltage proof Products Specifications5V DC RRTerminal BTerminal ATerminal CEncoder Test circuitttV V 5VON ONOFF Output waveformSliding directiont : Masking time to avoid chattering˚/s Items12mm size insulated shaft encodersStandard detentWithout detentWith switchOperating temperature range–10 to 605mA At R = 10kChattering :3ms max.Bounce :2ms max.V1 V2 1.5V max.–40 3 for 240h 300 or less, or within 3s80N50N3 2mN m, 10mN m max.3 20mN m, 40 15mN m3 to 20mN m25 15mN m260 5 , 5 1s85 3 for 240h40 2 , 90 to 95%RH for 240h30,000cycles15,000cycles30,000cycles50V DC 10M min.Maximum operating currentResistive loadElectrical performanceMechanical performanceDurabilityEnvironmental performanceRating Output signalOutput waveSliding noiseRotational torqueDetent torque Push-pull strengthRotational lifeColdDry heat Damp heatResistanceto solderingheatManual solderingDip soldering Reflow solderingInsulation resistance0.5mA 5V DCOutput of A and B signals, proportionate to phase differenceA signalB signal Detent stabillity pointWhen the switch is providedCW directionOFFONONOFFPush-on Switch SpecificationsItems12mm size insulated shaft encodersSwitch circuit the number of contactSingle pole and single throw Push-on0.5mm 0.40.33N or 61.5 1.01mA 5V DC100m for initial period; 200m after rotational life20,000 times min.Travel of switch Operating force of switchRatingContact resistance Operating life12mm Size Insulated Shaft Type EncoderEC12E2430401。

Spectral performance for general-purpose test OverviewThe Agilent Technologies 8657A and 8657B signal gener-ators are designed to test AM, FM, and pulsed receivers as well as components. With their exceptional analog modulation, good spectral purity, and superb output level performance, these signal generators are ideal for R&D, manufacturing, and support.In-channel performanceMeasurement confidenceThe 8657A and B signal generators provide the spectral purity and modulation versatility needed for RF testing of communication and navigation equipment.Low residual FM ensures wide hum and noise test margins Hum and noise testing requires a signal generator to have low residual FM to ensure no measurement error. The residual FM of the 8657A and B provides the test margins you need for the most demanding hum and noise tests.Output level range and accuracy for sensitivity testingWith a dynamic range from +13 to –143.5 dBm, the 8657A and B allow sensitivity measurements to be made on even the most sensitive receivers. The 8657A and B couple this with a level accuracy of ±1 dB (typically0.5 dB) to –127 dBm across the full temperature range of 0 to 55 degrees C, to give you accurate and repeatable measurements every time.Low RF leakage eliminates measurement interference Sensitivity measurements can often be masked by RF leakage (radiated emissions). With the 8657A and B, RF leakage is reduced to a level that assures virtually no measurement interference.DCFM faithfully reproduces digital signalsFor radios with digital squelching, the 8657A and B have extremely stable dc-coupled FM (dcFM). The dc coupling of low-rate tones or digital data eliminates droop, and the exceptional stability and center-frequency accuracy when in dcFM mode eliminates the need to retune the signal generator after dcFM is selected.Pulse modulation with the 8657BHigh-performance pulse modulation (available on the 8657B) will give you confidence in your radar or pulsed carrier measurements. This includes rise/fall times of<35 ns, rates from dc to 30 MHz, and better than 70 dB on/off ratios (fc<1030 MHz).Agilent 8657A/8657BSignal GeneratorsProfile/HP-Agilent-8657B-Signal-Generator.aspxTo buy, sell, rent or trade-in this product please click on the link below:Out-of-channel measurements with the 8657A/B Low single-sideband phase noise for adjacent channel selectivity testingA receiver’s ability to reject unwanted signals is meas-ured using out-of-channel tests. With its good spectral purity, the 8657A andB make it easy to perform demanding tests such as adjacent channel selectivity measurements.Adjacent channel selectivity measures a receiver’s ability to pick out a desired signal while rejecting a strong sig-nal one channel away. To measure adjacent channel selectivity the out-of-channel signal generator must have low single-sideband (SSB) phase noise and nonharmonic spurious content at channel spacings, otherwise the in-channel signal is masked. The exceptional phase noise performance of the 8657A and B provides a cost-effective solution for many out-of-channel tests.General purpose and component testsOutput power to drive high-level inputsFor applications requiring high output power, the 8657A and B can overrange beyond the +13 dBm specified out-put level to >+16 dBm for most frequencies.DCFM for VCO simulationState-of-the-art dcFM and wide FM bandwidth make the 8657A and B ideal sources for many VCO simulation applications. For example, the 8657A or B can be used to replace a receiver’s VCO during design.Phase adjust to characterize phase-sensitive devicesThe 8657A and B give you the ability to adjust the phase of the output signal in one-degree increments with respect to a source that is locked to the same reference timebase. This feature makes it easy to characterize phase-detector or phase-interferometer receivers during design or manufacturing.Manual tests100 nonvolatile store/recall registers save set-up timeThe 8657A and B offer as a standard feature the ability to store 100 complete instrument states. This feature decreases set-up time when performing repetitive tests and reduces operator errors.Register sequencing provides semi-automationStepping through the store/recall registers is easy with the front-panel sequence keys or the rear-panel remote-sequence connector. These features allow the user to sequence through the storage registers in any order.Automated testsReliable output attenuatorsWith production lines requiring ever-faster throughput, test equipment must be more reliable than ever. Output level cycling requires electromechanical relays to switch in and out of different attenuators to produce varying output levels. The 8657A and B enhance system up-time by using a very reliable attenuator technology. The 8657A is especially dependable with its electronic atten-uator design. Instead of using mechanical relays for switching the attenuators, the 8657A uses solid-state components for setting output levels. The patented design uses PIN-diode switching elements with 3 million hours mean time between failure rate. This exceptional reliability is backed with a 5-year warranty against attenuator failure.Ordering informationPlease contact your Agilent Technologies Sales and Service Office for more information or visit our website at /find/tmdirOption Description001High-stability timebase002Rear-panel connections003Pulse modulation ( 8657B only)1BN Mil std 45662A calibration certification1BP Mil std 45622A calibration with test data907Front handle kit908Rack flange kit909Rack flange kit w/ front handle910Adds operation/calibration manual and two service manuals915Adds service manualW303-year return repair serviceW323-year return calibration serviceW343-year standards compliant calibration serviceW505-year return repair serviceW525-year return calibration serviceW545-year standards compliant calibration service2Technical specificationsSpecifications describe the instruments warranted per-formance and apply after a 30-minute warm-up. All specifications are valid over the signal generator’s entire operating/environment range unless otherwise noted.Supplemental characteristics(indicated by italic type)are intended to provide information useful in estimating instrument capability in your application by describing typical, but not warranted, performance.Note:The upper frequency range of the 8657A is 1.04 GHz. Specifications above 1.04 GHz apply only to the 8657B. FrequencyRange8657A100 kHz to 1.04 GHz8657B100 kHz to 2.6 GHzUnderrange To 10 kHz with uncalibrated output andmodulation.Resolution8657A10 Hz8657B 1 HzAccuracy and stability Same as timebaseSwitching speed1<35 ms.2(30 ms typical at 25 °C) Phase offset Output signal phase is adjustable in1-degree nominal increments. Internal reference oscillatorStd. (typ.)High-stability Option 001Aging rate±2 ppm/yr8657A, 1.5 x 10-8parts/day after 10 days1.0 x 10-9parts/day after 180 days8657B, 1.0 x 10-9parts/day after 45 days Temperature(0 to 55 °C)±10 ppm7 x 10-9Line voltage 2 x 10-9(+5%, –10%)Frequency50 MHz10 MHzTimebase reference Available at a level of >0.15 V rms into output (rear panel)50 Ω(output of 10, 5, or 1 MHz is selec-table via internal jumper). If external ref-erence is used, output will be the samefrequency.External reference input Accepts any 10, 5, or 1 MHz ±0.002%) (rear panel)Frequency standard at a level>0.15 Vrms into 50 ΩOutputRange (dBm)8657A+13 dBm to –143.5 dBm into 50 Ω,+10 dBm to –143.5 dBm for frequenciesfrom 100 kHz to 1 MHz8657B+13 dBm to –143.5 dBm into 50 Ω,+10 dBm to –143.5 dBm with pulsemodulation installed at f c<1.03 GHz Resolution0.1 dBAbsolute level accuracy38657A<±1.5 dB (>+7 dBm)<±1.0 dB (+7 to –127 dBm)<±1.5 dB (<–127 dBm)8657B<±1.5 dB (>+3.5 dBm)<±1.0 dB (+3.5 to –127 dBm)<±1.5 dB (<–127 dBm)Level flatness100 kHz to 2.06 GHz±0.5 dB, output level setting of 0 dBm Reverse power protectionto maximum output frequency)50 watts (from a 50 Ωsource) Maximum DC voltage8657A, 50 V8657B, 25 VSWR8657A (fc(400 kHz)<1.5 for levels <–3.5 dBm<2.0 for levels ≤+13 dBm8657B<1.5 for levels ≤–6.5 dBm<2.0 for levels ≤+13 dBmOutput impedance50 Ωnominal1.To be within 100 Hz of carrier frequency.2.Add 5 ms when switching to fc>1.03 GHz for the 8657B.3.Absolute level accuracy includes allowances for detector linearity, temperature,flatness, attenuator accuracy and measurement uncertainty.34Spectral puritySSB phase noise (in CW mode, at 20 kHz offset)0.1 to 130 MHz <–124 dBc/Hz (<–130 dBc/Hz, typical)130 to 260 MHz <–136 dBc/Hz (<–140 dBc/Hz, typical)260 to 520 MHz <–130 dBc/Hz (<–136 dBc/Hz, typical)520 MHz to 1.04 GHz <–124 dBc/Hz (<–130 dBc/Hz, typical)1.04 to 2.06 GHz <–118 dBc/Hz (<–123 dBc/Hz, typical)Typical Agilent 8657A SSB phase noise at 500 MHzTypical Agilent 8657B SSB phase noise at 500 MHzResidual FM (CW mode, rms)Post detection BW(rms detector) Frequency range300 Hz to 3 kHz50 Hz to 15 kHz 10.1 to 130 MHz <4 Hz (typical <2 Hz)<6 Hz (typical <3 Hz)130 to 260 MHz <1 Hz (typical <0.5 Hz)<1.5 Hz (typical <1 Hz)260 to 520 MHz <2 Hz (typical <1 Hz)<3 Hz (typical <1 Hz)520MHz to1.04GHz8657A,<4 Hz (typical <1 Hz)8657A,<6 Hz8657B,<3 Hz (typical <1 Hz)8657B,<4 Hz (typical <1.5 Hz)1.04to2.06GHz<6 Hz (typical <2 Hz)<8 Hz (typical <3 Hz)1.Typical residual FM specifications for the 50 Hz to 15 kHz post detection band-width apply only to the 8657B.Residual AM (50 Hz to 15 kHz post-detection noise bandwidth, in CW mode)<0.04% AMHarmonics (≤+7 dBm output levels)18657A<–30 dBc8657B0.1 to 1.03 GHz<–30 dBc1.03 to 1.8 GHz<–25 dBc1.8 to2.06 GHz<–25 dBc Subharmonics (≤+7 dBm output levels)8657A, 8657B0.1 to 1.03 GHz None8657B 1.03 to 1.8 GHz<–40 dBc1.8 to2.06 GHz<–35 dBcNonharmonics (CW mode)Offset from carrierFrequency range 5 kHz to 2 MHz>2 MHz0.1 to 130 MHz8657A, <–60 dBc<–60 dBc8657B, <–63 dBc (typical)130 to 260 MHz8657A, <–72 dBc<–60 dBc8657B, <–75 dBc (typical)260 to 520 MHz8657A, <–66 dBc<–60 dBc8657B, <–66 dBc (typical)520MHz to1.04GHz28657A, <–60 dBc<–60 dBc8657B, <–63 dBc (typical)1.03 to2.06 GHz8657B, <–57 dBc (typical)<–54 dBc Frequency modulationMaximum FM peak deviation3Center frequency AC mode (the lesser of)DC mode0.1 to 130 MHz4000 x rate (Hz) or DC mode8657A, 99 kHzmax. deviation8657B, 200 kHz130 to 260 MHz1000 x rate (Hz) or DC mode8657A, 50 kHzmax. deviation8657B, 50 kHz260 to 520 MHz2000 x rate (Hz) or DC mode8657A, 99 kHzmax. deviation8657B, 100 kHz520MHz to1.04GHz4000 x rate (Hz) or DC mode8657A, 99 kHzmax. deviation8657B, 200 kHz1.04to2.06GHz8000 x rate (Hz) or DC mode8657B, 400 kHzmax. deviationResolution8657A100 Hz for deviations < 10 kHz;1 kHz for deviations ≥10 kHz8657B100 Hz (200 Hz for carrier frequency >1.04 GHz)for deviations <20 kHz;200 Hz (400 Hz for carrier frequency >1.04 GHz)for deviations >20 kHzFM rateInternal400 Hz and 1 kHz, ±2%External(referenced to1kHz)dc/5 Hz to 100 kHz, 3 dB bandwidth; dc/20 Hz to50 kHz, 1 dB bandwidth1.Spurious specifications apply for output levels ≤+4 dBm and f c<1.03 GHz whenpulse modulation is installed (8657B) only.2.520 MHz to 1.03 GHz for 8657B.3.FM not specified when peak deviation is >(f c–100 kHz).5Center frequency accuracy in dc modeCarrier frequency Center frequency accuracy0.1 to 130 MHz±500 Hz130 to 260 MHz±125 Hz260 to 520 MHz±250 Hz520 MHz to 1.04 GHz±500 Hz1.04 to2.06 GHz±1000 HzCenter frequency<10 Hz per hour drift (typical <3 Hz per stability in dc mode hour)Distortion (at internal rates)1<0.5% THD plus noise (typical <1.5% forall specified deviations and rates) Sensitivity 1 V peak for indicated accuracy, 1 V dcwhen in dc-FM modeIndicator accuracy(internal rates)<±5% of settingIncidental AM (peak deviations<20 kHz, internal rates)f c>500 kHz<0.1% AMf c>1.03 GHz2<0.5% AM Amplitude modulationRange8657A30 to 99%, level ≤+7 dBm, f c≥400 kHz40 to 30%, level ≤+10 dBm, f c≥400 kHz4 8657B50 to 100%, level ≤+7 dBm, f c≥400 kHz0 to 30%, level ≤+10 dBm, f c≥400 kHz Resolution1%RatesInternal400 Hz and 1 kHz, ±2%External20 Hz to 40 kHz (1dB bandwidth);8657B, typical, 20 Hz to 100 kHz(3 dB bandwidth)Distortion (internal rates, level <+7 dBm)AM depth f c<1.04 GHz f c>1.04 GHz0 to 30% AM<1.5%4%31 to 70% AM<3.0%4%71 to 90% AM<4.0%7%Sensitivity (typical)1 V peak for indicated accuracyIndicator accuracy (for depths <90%and internal rates and levels ≤+7 dBm)<±(2% + 6% of setting) Incidental phase modulation(at 30% AM depth, internal rates)<0.3 radians peak1.8657A only. FM distortion only specified for deviations up to 25 kHz for130<fc<260 MHz, and for 260<fc<520 MHz.2.8657B only.3.AM depth is further limited by indicator accuracy specifications.4.8657A only. For fc<400 kHz, AM depths of 0 to 30%, levels ≤+7 dBm.5.8657B only. When pulse modulation is installed, maximum specified output levelin AM is reduced by 3 dB when fc<1.03 GHz.6External modulation inputFront panel BNC, 600 Ωdc-coupled; front panel annunciators indicate 1 V peak signal ±5%.Modulating signal outputInternal modulating signal is provided at the front panel BNC connector at nominally 1 V peak into a 600 Ωresistive load.Simultaneous modulationInternal/External AM/FM, FM/AM, AM/AM, FM/FM,AM/FM/(Pulse1)Internal/Internal AM/FMExternal/External AM/FMPulse modulation (Agilent 8657B only)1On/off ratiof c≥130 MHz>70 dBf c≥1.03 GHz>95 dBRise/fall timesf c≥130 MHz>35 nsf c≥1.03 GHz>50 ns Maximum repetition rate dc to 30 MHz, typicalLevel accuracy±1.0 dB, typicalDuty cycle0 to 100%, typical (limited by rise/falltime)Pulse modulation input BNC, high impedance (internally selec-table to 50 ohms), can be driven directlyby TTLMaximum input level±15 V, typicalNominal input threshold 1.6 V, typicalVideo feedthrough<15%, typicalPulse time delay2On to off34 ns, typicalOff to on47 ns, typical Remote programmingInterface GPIB (IEEE-488)IEEE-488 functions SH0, AH1, T0, L2, SR0, RL1, PP0, DC1,DT0, C0, E11.8657B only. Pulse modulation specifications apply for carriers >130 MHz and lev-els ≤+7 dBm (frequency switching speed typically increases by 30 ms with pulse modulation on). Additionally, AM is unspecified with pulse modulation turned on at fc≥1.03 GHz.2.Time delay between a change in input pulse and carrier response.7GeneralOperating temperature range0 to 55 °CStorage temperature range–40 to +71 °CLeakage Conducted and radiated interference iswithin the requirements of RE02 (andCE03 for the 8657B, except broadbandconducted below 70 kHz) of MIL STD461B, and FTZ 1046 (FTZ 1115 for8657B). Furthermore, RF leakage of lessthan 1.0 µV is induced in a two-turnloop, 2.5 cm in diameter, held 2.5 cmaway from the front surface. (Typicalleakage for the 8657Bis <0.05 µV forlevels <–40 dBm.)Save/recall/sequence100 non-volatile registers are available storage registers to save front panel settings.Rear-panel SEQ input level TTL low to recall next storage registercontents.Power requirements100 or 120 or 220 or 240 volts (+5%,–10% for 8657A; ±10% for 8657B) from48 to 440 Hz; 160 VA maximum for8657A (200 VA maximum for 8657B).IEC 1010 compliant.Weight8657A, net 18.2 kg (40 lb);shipping 23.6 kg (52 lb)8657B, net 20.5 kg (45 lb);shipping 26.0 kg (57 lb)Dimensions133 mm H x 425 mm W x 574 mm D(5.25 in H x 16.75 in W x 22.6 in D)By internet, phone, or fax, get assistance with all your test and measurement needs.Online Assistance/find/assistPhone or FaxUnited States:(tel)180****4844Canada:(tel)187****4414(fax) (905) 206 4120Europe:(tel) (31 20) 547 2323(fax) (31 20) 547 2390Japan:(tel) (81) 426 56 7832(fax) (81) 426 56 7840Latin America:(tel) (305) 269 7500(fax) (305) 269 7599Australia:(tel) 1 800 629 485(fax) (61 3) 9272 0749New Zealand:(tel) 0 800 738 378(fax) (64 4) 495 8950Asia Pacific:(tel) (852) 3197 7777(fax) (852) 2506 9284Product specifications and descriptions in thisdocument subject to change without notice.Copyright © 1998, 2000 Agilent TechnologiesPrinted in U.S.A. 8/005968-2704E。