MAX24310EVKIT#

MAX24310EVKIT# Datasheet

MAX24000-Series EVKIT Evaluates MAX24000-Series Clock Products

Part	Datasheet
MAX24310EVKIT#	MAX24310EVKIT# (pdf)

Related Parts	Information
MAX24210EVKIT#	MAX24210EVKIT#
MAX24410EVKIT#	MAX24410EVKIT#
MAX24510EVKIT#	MAX24510EVKIT#

PDF Datasheet Preview
MAX24000-Series EVKIT Evaluates MAX24000-Series Clock Products The MAX24000-Series EVKIT is an easy-to-use evaluation kit for the Microsemi MAX24000-Series clock synchronization and clock synthesis ICs. A surfacemounted IC device and careful layout provide maximum signal integrity. On-board crystal, XO and TCXO components are provided for use as the device reference clock. Additionally, the board can accept 3 external input clocks which are accessible via SMB connectors. All device output clocks are available via SMB connectors to allow easy evaluation of the device’s jitter performance. The EVKIT can be configured to have four device GPIO pins connected to LEDs or header pins to provide device status information. Device JTAG I/O signals are also accessible via header pins. Finally, an on-board microcontroller and USB interface provide easy configuration and monitoring of the MAX24000-Series device via a software application. Evaluation Kit Contents MAX24000-series EVKIT Board Power Supply USB Cable 2 SMB to BNC cables 5 Oscillator Evaluation Daughter Cards Soldered MAX24000-Series Device for Best Signal Integrity SMB Connectors For Easy Connectivity Connectors and Termination for Input Clock Signals On-Board Crystal, XO and TCXO Components for Use as Reference Clocks Footprints to Support Both 5x7mm and 3x5mm Oscillators External Oscillator Testing Support 4 Software Configurable Device Status LEDs and Header Pins Easy-to-Read Silkscreen Labels Identify the Signals Associated with All Connectors, Jumpers, and LEDs Application Software Provides Easy GUI-Based Configuration and Monitoring of Most Common Device Features and Register Level Access to Entire Device Register Set Software Support for Creating and Running Configuration Scripts Saves Time During Evaluation and System Design Minimum System Requirements PC Running XP or 7 Display with 1024x768 Resolution or Higher Available USB Port PART NUMBER MAX24210EVKIT MAX24310EVKIT MAX24410EVKIT MAX24510EVKIT MAX24610EVKIT MAX24710EVKIT Ordering Information DESCRIP TIO N Evaluation Kit for MAX24205 and MAX24210 5- or 10-Output An y-Rate Timing ICs Evaluation Kit for MAX24305 and MAX24310 5- or 10-Output An y-Rate Timing ICs with Internal EEPROM Evaluation Kit for MAX24405 and MAX24410 5- or 10-Output An y-Rate Clock Multipliers Evaluation Kit for MAX24505 and MAX24510 5- or 10-Output An y-Rate Clock Multipliers with Internal EEPROM Evaluation Kit for MAX24605 and MAX24610 5- or 10-Output An y-Rate Line Card Timing ICs Evaluation Kit for MAX24705 and MAX24710 5- or 10-Output An y-Rate Line Card Timing ICs with Internal EEPROM MAX24000-SERIES EVALUATION KIT Table of Contents BOARD FLOORPLAN AND POWER SUPPLY USB CONNECTION HARDWARE CONFIGURATION SETTINGS Power Supply Reset and Microprocessor Master Clock Oscillator Input Clock s Output Clock s GPIO HEADER AND STATUS POWER-UP CONFIGURATION FROM INTERNAL/EXTERNAL JTAG HEADER SOFTWARE INSTALLATION SOFTWARE APPLICATION INSTALLATION USB VIRTUAL COM PORT DEVICE DRIVER INSTALLATION COMMAND LINE OPTIONS SOFTWARE APPLICATION MAIN APLL CONFIGURATION MENU OUTPUT CLOCK CONFIGURATION DPLL MASTER CLOCK CONFIGURATION MENU DPLL CONFIGURATION MENU DPLL INPUT CLOCK CONFIGUR ATION POWER METER MENU I/O PIN CONFIGURATION MENU EEPROM MENU REGISTER VIEW CONFIGURATION SCRIPTS AND LOG FILES Configuration Log Configuration Scripts MAX24000-SERIES EVALUATION KIT List of Figures List of Tables Table Power Supply Hardware Table Reset and Microprocessor Hardware Configuration Table Master Clock Oscillator Hardware Configuration Table MCLKOS C Source Selection Jumper Settings Table Input Clock Hardware Table Input Clock Differential/Single-E nded Mode Selection Jumper Settings Table Output Clock Hardware Configuration Table MA X24000-S eries EVKIT External EEPROM Options MAX24000-SERIES EVALUATION KIT Overview Board Floorplan and Configuration USB uP Plug. Pwr Supply Clock Outputs 1-4 Microsemi MAX24310 Clock Inputs Clock Outputs 5-6 Clock Outputs 7-10 Oscillator Sites 4 MAX24000-SERIES EVALUATION KIT When the board is oriented as shown in Figure 1, the MAX24000-Series device is located in the middle of the board, the input clock connectors are on the left side, and the output clock connectors are above, to the right and below the device. USB and power supply connectors are located in the top left corner of the board. Power Supply Connection The EVKIT board is powered via connector J3 using the provided A C-wall-plug 5V power supply. LED DS1 illuminates to indicat e that the board is powered. USB Connection The ed MA X24000-series EVKIT soft ware communicates to the board via USB connector J4. Hardware Configuration Settings Power Supply The EVK IT provides several options for evaluating device performance with respect to power supply configuration. Table 1 summarizes the EVKIT power supply related hardware connectors and functionality. Reset and Microprocessor The EVK IT provides a momentary switch reset button that can be used to perform a hardware reset of the board. Additionally, the board has a USB connector for interfacing the EVKIT’s microcontroller to the host PC running t he EVKIT soft ware. Table 2 summariz es the EVKIT reset and microprocessor relat ed hardware connectors and functionality. Master Clock Oscillator The EVK IT provides several options for driving the MA X24000-S eries device’s MCLKOS C input from either an onboard oscillator or an external source. Table 3 summarizes the EVKIT master clock oscillator related hardware configuration connectors and functionality. Table 4 summarizes how to configure the EVK IT jumpers to select each MCLKOS C source. Input Clocks The EVK IT IC1 and IC2 inputs can be configured to accept either a differential or single-ended signal. When configured as a differential input, that input can be configured as either AC coupled or DC coupled. Table 5 summaries the EVKIT input clock related hardware connectors and functionality. Table 6 summarizes how to configure the EVKIT jumpers for either a differential or single-ended input. Output Clocks The EVK IT s upports evaluation of all MA X24000-S eries device output clocks using SMB connectors. Table 7 summarizes the EVKIT output clock related hardware connectors. The EVKIT MA X24xxx output clock termination circuits are shown on schematic sheet Common termination options can be evaluated by populating the appropriate components. The EVK IT is provided with out put clocks OC1P/ N through OC8P/ N configured as DC-coupled differential CML, OC9P/N and OC10P/N c onfigured as dual single-ended CMOS. MAX24000-SERIES EVALUATION KIT Table Power Supply Hardware Configuration SILK SCREEN REFERENCE J3 TP2 TP3 GND JMP1 JMP2 J5 VDDOA J6 VDDOB J7 VDDOC J8 VDDOD J9 VSENSEO The MA X24000-Series clock synchronization and clock synthesis devices support loading a device configuration from an EEPROM following a hardware reset. Depending on the part number, this EEPROM can be inside the devic e or external. Refer to the Ordering Information table on page 1 and the device data sheets for details. The MA X24000-S eries EVKIT supports evaluating this feature on all devices in the MA X24000-Series family. For devic es that use an external EEPROM two options are provided. Refer to Table 8 for details. For devic es with an internal EEPROM this EVKIT functionality is not used. Table MAX24000-Series EV KIT External EEP ROM Options Option On-board 2048 Byte SOIC EEPROM 8-Pin DIP Socket JMP8 1-2 SOIC 2-3 8-DIP The MA X24000-Series EVKIT software can be used to program the EEP ROM based on the current GUI configuration, or from a file. Additionally, the EVKIT soft ware can be used to save the current GUI configuration to a file that can be used to program the EEPROM with a third-party tool. Following a hardware reset, the device configuration stored in EEPROM is loaded into t he device if the device pin GPIO3/AC is high. This pin has an internal pull-up resistor. Consequently, if the pin is left floating t he EEP ROM configuration will be loaded following a hardware reset. Placing a jumper across header J19 pins 5 and 6 will hold GPIO3/AC low during reset and prevent the EEPROM configuration from being loaded. JTAG Header The device JTAG interfac e is available on the 10-pin header J26. The header pins are labeled with t he corresponding JTAG signal names for easy identification. MAX24000-SERIES EVALUATION KIT Software Installation EVKIT software installation consists of the following two steps: Install the EVKIT software application Install the EVKIT virtual COM port driver for USB connection to the board The following sections describe in detail how to perform each of thes e steps. Software Application Installation At this time the EVKIT software is only supported on XP and 7 operating systems. To install the software, open the installer zip file and run setup.exe. The EVK IT software requires Microsoft .NE T Framework to operate. When setup.exe is run, it checks to see if .NET is installed on the target computer. If NE T is not already installed, the user is prompted t o download and install .NE T from Microsoft’s website. USB Virtual COM Port Device Driver Installation After the GUI application has been installed on the PC, apply power to the EVKIT board and connect its USB port to a USB port of the PC. Then follow these steps: A "Found New Hardware" message will appear in the notification area of the Windows taskbar, and then the Found New Hardware Wizard will appear. Select No when asked if you want to connect to Windows Updat e to look for the driver. Click Next. Select Install from a list or specific location. Click Next. Select Search for the best driver in these locations and check include thi s location in the search then browse to the folder where the software was installed. The default installation folder can be reach by browsing Windows XP My Computer  Program Files  Microsemi  MA X24000-Series EVKIT Windows 7 Computer  Local Disk C  Program Files x86 Microsemi  MA X24000-S eries EVKIT Within this directory select the sub-directory US B Dri ver. The driver file is Freescale_CDC_Driver_CMX_W IN7.inf, but Windows only needs to know the name of the folder in which to look for this file. Click Next. If a message appears indicating the software has not passed logo testing, click Continue Anyway. That should complete the virt ual COM port device driver installation. After following these steps, the EVK IT software should be ready to communicate with the board. MAX24000-SERIES EVALUATION KIT Command Line Options The soft ware has these command line options -l <filepath> specifies an alternate log file. Example MA X24000S eriesEVKIT.exe “mylog.mfg” To add command line options to the EVKIT shortcut that the installer adds to t he desktop or the start menu, rightclick on the shortcut and select Propertie s. In the Shortcut tab, at the end of the text in the Target textbox, add a space followed by the command line option. Software Application Overview The EVKIT soft ware provides an easy and interactive way to evaluate the MA X24000-Series clock synchronization and clock synthesis devices by using hierarchical menus to configure the device and monitor its status. The following sections briefly describe each of the major application menus. Note in each menu, when the mouse cursor i s placed over a configuration or status field, more information is di splayed about that field such a s the associated device register s , valid numerical range, or error information. Main Menu The major features located on the main menu are: MAX24000-SERIES EVALUATION KIT • Port list top left When the program starts, a scan is performed of the computer’s USB -connected virtual COM ports. Those ports connected to a MA X24000-Series EVKIT are displayed in the port list. • Demo Mode checkbox top center When the program starts, it is initially in Demo Mode. In Demo Mode the soft ware is not connected to the EVKIT board. In this mode, the software can be used to investigate device configuration options. Additionally, demo mode can be used to develop a device configuration script or EEPROM configuration file. The EVK IT can be operated in demo without the need to connect a board.

PDF Datasheet Preview

MAX24000-Series EVKIT Evaluates MAX24000-Series Clock Products

The MAX24000-Series EVKIT is an easy-to-use evaluation kit for the Microsemi MAX24000-Series clock synchronization and clock synthesis ICs. A surfacemounted IC device and careful layout provide maximum signal integrity. On-board crystal, XO and TCXO components are provided for use as the device reference clock. Additionally, the board can accept 3 external input clocks which are accessible via SMB connectors. All device output clocks are available via SMB connectors to allow easy evaluation of the device’s jitter performance. The EVKIT can be configured to have four device GPIO pins connected to LEDs or header pins to provide device status information. Device JTAG I/O signals are also accessible via header pins. Finally, an on-board microcontroller and USB interface provide easy configuration and monitoring of the MAX24000-Series device via a software application.

Evaluation Kit Contents

MAX24000-series EVKIT Board

Power Supply

USB Cable
2 SMB to BNC cables
5 Oscillator Evaluation Daughter Cards

Soldered MAX24000-Series Device for Best Signal Integrity

SMB Connectors For Easy Connectivity

Connectors and Termination for Input Clock Signals On-Board Crystal, XO and TCXO Components for

Use as Reference Clocks Footprints to Support Both 5x7mm and 3x5mm

Oscillators External Oscillator Testing Support 4 Software Configurable Device Status LEDs and

Header Pins Easy-to-Read Silkscreen Labels Identify the Signals

Associated with All Connectors, Jumpers, and LEDs Application Software Provides Easy GUI-Based Configuration and Monitoring of Most Common Device Features and Register Level Access to Entire Device Register Set Software Support for Creating and Running Configuration Scripts Saves Time During Evaluation and System Design

Minimum System Requirements

PC Running XP or 7 Display with 1024x768 Resolution or Higher Available USB Port

PART NUMBER MAX24210EVKIT MAX24310EVKIT MAX24410EVKIT MAX24510EVKIT MAX24610EVKIT MAX24710EVKIT
Ordering Information

DESCRIP TIO N

Evaluation Kit for MAX24205 and MAX24210 5- or 10-Output An y-Rate Timing ICs Evaluation Kit for MAX24305 and MAX24310 5- or 10-Output An y-Rate Timing ICs with Internal EEPROM Evaluation Kit for MAX24405 and MAX24410 5- or 10-Output An y-Rate Clock Multipliers Evaluation Kit for MAX24505 and MAX24510 5- or 10-Output An y-Rate Clock Multipliers with Internal EEPROM Evaluation Kit for MAX24605 and MAX24610 5- or 10-Output An y-Rate Line Card Timing ICs Evaluation Kit for MAX24705 and MAX24710 5- or 10-Output An y-Rate Line Card Timing ICs with Internal EEPROM

MAX24000-SERIES EVALUATION KIT

Table of Contents

BOARD FLOORPLAN AND

POWER SUPPLY USB CONNECTION HARDWARE CONFIGURATION SETTINGS

Power Supply Reset and Microprocessor Master Clock Oscillator Input Clock s Output Clock s

GPIO HEADER AND STATUS POWER-UP CONFIGURATION FROM INTERNAL/EXTERNAL JTAG HEADER SOFTWARE INSTALLATION SOFTWARE APPLICATION INSTALLATION USB VIRTUAL COM PORT DEVICE DRIVER INSTALLATION COMMAND LINE OPTIONS SOFTWARE APPLICATION MAIN APLL CONFIGURATION MENU OUTPUT CLOCK CONFIGURATION DPLL MASTER CLOCK CONFIGURATION MENU DPLL CONFIGURATION MENU DPLL INPUT CLOCK CONFIGUR ATION POWER METER MENU I/O PIN CONFIGURATION MENU EEPROM MENU REGISTER VIEW CONFIGURATION SCRIPTS AND LOG FILES

Configuration Log Configuration Scripts

MAX24000-SERIES EVALUATION KIT

List of Figures

List of Tables

Table Power Supply Hardware Table Reset and Microprocessor Hardware Configuration Table Master Clock Oscillator Hardware Configuration Table MCLKOS C Source Selection Jumper Settings Table Input Clock Hardware Table Input Clock Differential/Single-E nded Mode Selection Jumper Settings Table Output Clock Hardware Configuration Table MA X24000-S eries EVKIT External EEPROM Options

MAX24000-SERIES EVALUATION KIT

Overview

Board Floorplan and Configuration

USB uP

Plug. Pwr Supply

Clock Outputs 1-4

Microsemi

MAX24310

Clock Inputs Clock Outputs 5-6

Clock Outputs 7-10

Oscillator Sites 4

MAX24000-SERIES EVALUATION KIT When the board is oriented as shown in Figure 1, the MAX24000-Series device is located in the middle of the board, the input clock connectors are on the left side, and the output clock connectors are above, to the right and below the device. USB and power supply connectors are located in the top left corner of the board.

Power Supply Connection

The EVKIT board is powered via connector J3 using the provided A C-wall-plug 5V power supply. LED DS1 illuminates to indicat e that the board is powered.

USB Connection

The ed MA X24000-series EVKIT soft ware communicates to the board via USB connector J4.

Hardware Configuration Settings

Power Supply The EVK IT provides several options for evaluating device performance with respect to power supply configuration. Table 1 summarizes the EVKIT power supply related hardware connectors and functionality. Reset and Microprocessor The EVK IT provides a momentary switch reset button that can be used to perform a hardware reset of the board. Additionally, the board has a USB connector for interfacing the EVKIT’s microcontroller to the host PC running t he EVKIT soft ware. Table 2 summariz es the EVKIT reset and microprocessor relat ed hardware connectors and functionality. Master Clock Oscillator The EVK IT provides several options for driving the MA X24000-S eries device’s MCLKOS C input from either an onboard oscillator or an external source. Table 3 summarizes the EVKIT master clock oscillator related hardware configuration connectors and functionality. Table 4 summarizes how to configure the EVK IT jumpers to select each MCLKOS C source. Input Clocks The EVK IT IC1 and IC2 inputs can be configured to accept either a differential or single-ended signal. When configured as a differential input, that input can be configured as either AC coupled or DC coupled. Table 5 summaries the EVKIT input clock related hardware connectors and functionality. Table 6 summarizes how to configure the EVKIT jumpers for either a differential or single-ended input. Output Clocks The EVK IT s upports evaluation of all MA X24000-S eries device output clocks using SMB connectors. Table 7 summarizes the EVKIT output clock related hardware connectors.

The EVKIT MA X24xxx output clock termination circuits are shown on schematic sheet Common termination options can be evaluated by populating the appropriate components. The EVK IT is provided with out put clocks OC1P/ N through OC8P/ N configured as DC-coupled differential CML, OC9P/N and OC10P/N c onfigured as dual single-ended CMOS.

MAX24000-SERIES EVALUATION KIT

Table Power Supply Hardware Configuration

SILK SCREEN REFERENCE

J3 TP2 TP3 GND

JMP1

JMP2

J5 VDDOA J6 VDDOB J7 VDDOC J8 VDDOD

J9 VSENSEO
The MA X24000-Series clock synchronization and clock synthesis devices support loading a device configuration from an EEPROM following a hardware reset. Depending on the part number, this EEPROM can be inside the devic e or external. Refer to the Ordering Information table on page 1 and the device data sheets for details.

The MA X24000-S eries EVKIT supports evaluating this feature on all devices in the MA X24000-Series family. For devic es that use an external EEPROM two options are provided. Refer to Table 8 for details. For devic es with an internal EEPROM this EVKIT functionality is not used.

Table MAX24000-Series EV KIT External EEP ROM Options

Option On-board 2048 Byte SOIC EEPROM
8-Pin DIP Socket

JMP8 1-2 SOIC 2-3 8-DIP

The MA X24000-Series EVKIT software can be used to program the EEP ROM based on the current GUI configuration, or from a file. Additionally, the EVKIT soft ware can be used to save the current GUI configuration to a file that can be used to program the EEPROM with a third-party tool.

Following a hardware reset, the device configuration stored in EEPROM is loaded into t he device if the device pin GPIO3/AC is high. This pin has an internal pull-up resistor. Consequently, if the pin is left floating t he EEP ROM configuration will be loaded following a hardware reset. Placing a jumper across header J19 pins 5 and 6 will hold GPIO3/AC low during reset and prevent the EEPROM configuration from being loaded.

JTAG Header

The device JTAG interfac e is available on the 10-pin header J26. The header pins are labeled with t he corresponding JTAG signal names for easy identification.

MAX24000-SERIES EVALUATION KIT

Software Installation

EVKIT software installation consists of the following two steps:

Install the EVKIT software application Install the EVKIT virtual COM port driver for USB connection to the board

The following sections describe in detail how to perform each of thes e steps.

Software Application Installation

At this time the EVKIT software is only supported on XP and 7 operating systems. To install the software, open the installer zip file and run setup.exe.

The EVK IT software requires Microsoft .NE T Framework to operate. When setup.exe is run, it checks to see if .NET is installed on the target computer. If NE T is not already installed, the user is prompted t o download and install .NE T from Microsoft’s website.

USB Virtual COM Port Device Driver Installation

After the GUI application has been installed on the PC, apply power to the EVKIT board and connect its USB port to a USB port of the PC. Then follow these steps:

A "Found New Hardware" message will appear in the notification area of the Windows taskbar, and then the Found New Hardware Wizard will appear.

Select No when asked if you want to connect to Windows Updat e to look for the driver.

Click Next.

Select Install from a list or specific location.

Click Next.

Select Search for the best driver in these locations and check include thi s location in the search then browse to the folder where the software was installed. The default installation folder can be reach by browsing Windows XP My Computer  Program Files  Microsemi  MA X24000-Series EVKIT Windows 7 Computer  Local Disk C  Program Files x86 Microsemi  MA X24000-S eries EVKIT Within this directory select the sub-directory US B Dri ver. The driver file is Freescale_CDC_Driver_CMX_W IN7.inf, but Windows only needs to know the name of the folder in which to look for this file.

Click Next.

If a message appears indicating the software has not passed logo testing, click Continue Anyway. That should complete the virt ual COM port device driver installation. After following these steps, the EVK IT software should be ready to communicate with the board.

MAX24000-SERIES EVALUATION KIT

Command Line Options

The soft ware has these command line options -l <filepath> specifies an alternate log file. Example MA X24000S eriesEVKIT.exe “mylog.mfg”

To add command line options to the EVKIT shortcut that the installer adds to t he desktop or the start menu, rightclick on the shortcut and select Propertie s. In the Shortcut tab, at the end of the text in the Target textbox, add a space followed by the command line option.

Software Application Overview

The EVKIT soft ware provides an easy and interactive way to evaluate the MA X24000-Series clock synchronization and clock synthesis devices by using hierarchical menus to configure the device and monitor its status. The following sections briefly describe each of the major application menus. Note in each menu, when the mouse cursor i s placed over a configuration or status field, more information is di splayed about that field such a s the associated device register s , valid numerical range, or error information.

Main Menu

The major features located on the main menu are:

MAX24000-SERIES EVALUATION KIT
• Port list top left

When the program starts, a scan is performed of the computer’s USB -connected virtual COM ports. Those ports connected to a MA X24000-Series EVKIT are displayed in the port list.
• Demo Mode checkbox top center

When the program starts, it is initially in Demo Mode. In Demo Mode the soft ware is not connected to the EVKIT board. In this mode, the software can be used to investigate device configuration options. Additionally, demo mode can be used to develop a device configuration script or EEPROM configuration file. The EVK IT can be operated in demo without the need to connect a board.

Notice: we do not provide any warranties that information, datasheets, application notes, circuit diagrams, or software stored on this website are up-to-date or error free. The archived MAX24310EVKIT# Datasheet file may be downloaded here without warranties.

Datasheet ID: MAX24310EVKIT# 649049