MAX24288EVKIT#

MAX24288EVKIT# Datasheet

The MAX24288 EV Kit is an easy-to-use evaluation kit for the MAX24288 IEEE 1588 Packet Timestamper and Clock. On the network side of the MAX24288 an SFP module cage supports either a 1000BASE-X optical module or a module containing a 10/100/1000Mbps Ethernet PHY with an SGMII system interface. On the system side of the MAX24288 an unmanaged switch IC with integrated PHYs plus magnetics and RJ-45 jacks provides an easy Cat 5 Ethernet connection to 1588 test equipment or a processor board running 1588 software.

Part	Datasheet
MAX24288EVKIT#	MAX24288EVKIT# (pdf)

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Data Sheet May 2012 The MAX24288 EV Kit is an easy-to-use evaluation kit for the MAX24288 IEEE 1588 Packet Timestamper and Clock. On the network side of the MAX24288 an SFP module cage supports either a 1000BASE-X optical module or a module containing a 10/100/1000Mbps Ethernet PHY with an SGMII system interface. On the system side of the MAX24288 an unmanaged switch IC with integrated PHYs plus magnetics and RJ-45 jacks provides an easy Cat 5 Ethernet connection to 1588 test equipment or a processor board running 1588 software. An on-board high-stability TC-OCXO oscillator is provided to allow evaluation of 1588 performance with a variety of network PDV and impairment scenarios. Also, the board can accept an external oscillator input for testing alternate oscillators. The board provides SMB connectors for three device GPIO signals. Through these connectors clock and 1PPS signals can be input or output to lock the MAX24288 time clock to a master time clock or to lock other 1588 components to the MAX24288. Typically the board is controlled by EV kit software running on a Windows PC through the USB interface. The board also has SPI and JTAG headers through which the MAX24288 can be controlled by a processor on another board as needed. MAX24288 EV KIT Evaluates MAX24288 Network-Side SFP Cage Accepts Optical or Electrical Ethernet SFP modules System-Side Unmanaged Ethernet Switch for Easy Connection to Processor Running 1588 Software. GPIO SMB Connectors to Input or Output Clock Signals and 1PPS Signals Onboard TC-OCXO Provides Stable Reference for High-Quality Timing over IEEE1588 Connectors and Component Sites for Alternate Oscillators as Needed Included Universal 5V Power Supply Jumpers to Configure Reset State of MAX24288, GPIO Termination, Ethernet Switch Mode and More LEDs for Power Supplies Valid and Port Status Soldered MAX24288 for Best Signal Integrity Easy-to-Read Silkscreen Labels Identify the Signals Associated with All Connectors, Jumpers, and LEDs Evaluation Software Provides Easy Configuration and Monitoring of the MAX242888 Device Evaluation Software Calls MAX24288 HAL Software and Structure is Similar to HAL Software MAX24288 Board Power Supply USB Cable Demo Kit Contents Ordering Information appears at end of data sheet. Minimum System Requirements PC Running Windows XP or later Available USB Port MAX24288 EV KIT Contents Board Floorplan 4 Connections to the Board 5 Power-Supply Connection 5 USB Connection 5 Ethernet Connections and IP 5 Example 5 Installing the Software 5 Troubleshooting Software 6 Running the Software 6 Software User Interface 7 Status Display 7 Configuration Menu and Command Prompt 8 MAX24288 EV KIT List of Figures Figure MAX24288 EV Kit Board Floorplan 4 Figure Example Setup 5 Figure User Interface Main 7 List of Tables Table Status Display Fields 7 Table MAIN Menu 9 Table CONFIG SCRIPTING Menu 9 Table GPIO PINS Menu 9 Table DATA PATH 10 Table 1588 TIME ENGINE Menu 10 Table 1588 EVENT GENERATORS Menu 12 Table PEG1/PEG2 COMMANDS 12 Table 1588 TIMESTAMPERS Menu 12 Table PACKET TS FIFO ENABLES Submenu 13 Table 1588 PACKET CLASSIFIERS Menu 13 Table UID CHECK Menu 14 Table CPC CLASSIFIER Menu 14 Table 1588 ON-THE-FLY INSERTION Menu 16 Table ON-THE-FLY CORRECTION Menu 18 Table TIMESTAMP INSERTION Menu 18 Table LOCK TO PPS 19 Table TEST 20 Table Power and Reset 21 Table MAX24288 REFCLK Jumpers and Connectors 21 Table MAX24288 Pin Configuration Jumpers 21 Table MAX24288 Parallel Interface Configuration 23 Table MAX24288 GPIO1 Jumpers and Connectors 23 Table MAX24288 GPIO2 Jumpers and Connectors 23 Table MAX24288 GPIO3 Jumpers and Connectors 23 Table Processor and Debug Jumpers and Connectors 24 Table Ethernet Switch Jumpers, Connectors and LEDs 24 Table SFP Module Jumpers and LEDs 25 MAX24288 EV KIT Board Floorplan When the board is oriented as shown in Figure 1, The 5V power supply and USB cable included with the kit are connected to jacks J1 and J2 at the top of the board. An SFP module is inserted into the SFP cage lower-left, and an appropriate cable is connected to the SFP module. The SFP module can be 1000BASE-X optical for a 1000Mbps optical connection, or it can contain a 10/100/1000Mbps copper PHY with an SGMII interface to the MAX24288 and an RJ-45 jack on the other side. The SFP module is the network side of the MAX24288, and timestamping of IEEE1588 messages occurs as packets enter and leave the MAX24288 from/to the SFP module. The board ships with a TCXO mounted in the Y3 oscillator position and a 25MHz XO in the Y1 position. See section 6 for detailed descriptions of the board’s jumpers, connectors and LEDs. Y3 OSC Pwr Jack USB Jack Y2 OSC Processor Y1 OSC Ethernet SFP Module Cage serial side of MAX24288 MAX 24288 Ethernet Switch IC parallel side of MAX24288 MAX24288 Config Jumpers Figure MAX24288 EV Kit Board Floorplan Ethernet RJ-45 Jack Ethernet RJ-45 Jack MAX24288 EV KIT Connections to the Board Power-Supply Connection The board is powered through connector J1 using the provided AC wall-plug 5V power supply. LED DS1 illuminates to indicate that the board is powered. USB Connection The MAX24288 EV kit software application communicates with the EV kit board through USB connector J2. Ethernet Connections and IP Addresses The Ethernet switch on the board, Realtek RTL8363, operates by default as a simple, unmanaged switch. To avoid set-up problems, each system connected to the MAX24288 EV Kit board must have a unique IP address. Example Setup 1588 Master or Enet Grandmaster Network switches, routers MAX24288EVKit Enet SFP ‘288 Switch Enet Running 1588 Code Master Clock or 1PPS Signal Ordering Information PART MAX24288EVKIT TYPE Evaluation Kit Initial Release Reformatted for Microsemi. No content change. 8 D C B A V3_3 V1_2 TX_EN 53 TXD5 52 TXD4 54 TXD6 55 TXD7 58 R44 TX_ER GPIO2 GPIO3 SDO GPIO1 SCLK SDI RST_DUT GTXCLK 68 REFCLK 60 R20 59 R23 62 61 R12 64 63 67 66 TP4 TP7 TP10 U6 TQFN REFCLK RST_N GTXCLK DVDD3.3 SCLK SDI SDO GPIO1 GPIO2 GPIO3 TX_ER TX_EN DVDD1.2 TXD7 TXD6 TXD5 TXD4 TVDD33 TVDD12 TCLKN TCLKP TVDD33 TVDD12 RVDD33 RVDD12 TP8 17 GVSS CVDD3.3 CVDD1.2 CVSS TCLKN TCLKP TVDD3.3 TDN TDP TVSS TVDD1.2 RVDD3.3 RDP RDN RVSS RVDD1.2 NC MAX24287, MAX24288 OR MAX24188 TXD3 51 TXD2 50 TXD1 49 TXD0 48 DVSS 47 TXCLK/RCLK1 46 CS_N 45 JTDO 44 JTRST 43 MDIO 42 MDC 41 RXCLK 40 DVDD3.3 39 RXD0 38 RXD1 37 RXD2 36 RXD3 35 TXD3 TXD2 TXD1 TXD0

PDF Datasheet Preview

Data Sheet May 2012

The MAX24288 EV Kit is an easy-to-use evaluation kit for the MAX24288 IEEE 1588 Packet Timestamper and Clock. On the network side of the MAX24288 an SFP module cage supports either a 1000BASE-X optical module or a module containing a 10/100/1000Mbps Ethernet PHY with an SGMII system interface. On the system side of the MAX24288 an unmanaged switch IC with integrated PHYs plus magnetics and RJ-45 jacks provides an easy Cat 5 Ethernet connection to 1588 test equipment or a processor board running 1588 software.

An on-board high-stability TC-OCXO oscillator is provided to allow evaluation of 1588 performance with a variety of network PDV and impairment scenarios. Also, the board can accept an external oscillator input for testing alternate oscillators. The board provides SMB connectors for three device GPIO signals. Through these connectors clock and 1PPS signals can be input or output to lock the MAX24288 time clock to a master time clock or to lock other 1588 components to the MAX24288.

Typically the board is controlled by EV kit software running on a Windows PC through the USB interface. The board also has SPI and JTAG headers through which the MAX24288 can be controlled by a processor on another board as needed.

MAX24288 EV KIT

Evaluates MAX24288

Network-Side SFP Cage Accepts Optical or Electrical Ethernet SFP modules

System-Side Unmanaged Ethernet Switch for Easy Connection to Processor Running 1588 Software.

GPIO SMB Connectors to Input or Output Clock Signals and 1PPS Signals

Onboard TC-OCXO Provides Stable Reference for High-Quality Timing over IEEE1588

Connectors and Component Sites for Alternate Oscillators as Needed

Included Universal 5V Power Supply Jumpers to Configure Reset State of MAX24288,

GPIO Termination, Ethernet Switch Mode and More LEDs for Power Supplies Valid and Port Status Soldered MAX24288 for Best Signal Integrity Easy-to-Read Silkscreen Labels Identify the

Signals Associated with All Connectors, Jumpers, and LEDs Evaluation Software Provides Easy Configuration and Monitoring of the MAX242888 Device Evaluation Software Calls MAX24288 HAL Software and Structure is Similar to HAL Software

MAX24288 Board Power Supply USB Cable

Demo Kit Contents
Ordering Information appears at end of data sheet.

Minimum System Requirements

PC Running Windows XP or later Available USB Port

MAX24288 EV KIT

Contents

Board Floorplan 4 Connections to the Board 5

Power-Supply Connection 5 USB Connection 5 Ethernet Connections and IP 5 Example 5 Installing the Software 5 Troubleshooting Software 6 Running the Software 6 Software User Interface 7 Status Display 7 Configuration Menu and Command Prompt 8
MAX24288 EV KIT

List of Figures

Figure MAX24288 EV Kit Board Floorplan 4 Figure Example Setup 5 Figure User Interface Main 7

List of Tables

Table Status Display Fields 7 Table MAIN Menu 9 Table CONFIG SCRIPTING Menu 9 Table GPIO PINS Menu 9 Table DATA PATH 10 Table 1588 TIME ENGINE Menu 10 Table 1588 EVENT GENERATORS Menu 12 Table PEG1/PEG2 COMMANDS 12 Table 1588 TIMESTAMPERS Menu 12 Table PACKET TS FIFO ENABLES Submenu 13 Table 1588 PACKET CLASSIFIERS Menu 13 Table UID CHECK Menu 14 Table CPC CLASSIFIER Menu 14 Table 1588 ON-THE-FLY INSERTION Menu 16 Table ON-THE-FLY CORRECTION Menu 18 Table TIMESTAMP INSERTION Menu 18 Table LOCK TO PPS 19 Table TEST 20 Table Power and Reset 21 Table MAX24288 REFCLK Jumpers and Connectors 21 Table MAX24288 Pin Configuration Jumpers 21 Table MAX24288 Parallel Interface Configuration 23 Table MAX24288 GPIO1 Jumpers and Connectors 23 Table MAX24288 GPIO2 Jumpers and Connectors 23 Table MAX24288 GPIO3 Jumpers and Connectors 23 Table Processor and Debug Jumpers and Connectors 24 Table Ethernet Switch Jumpers, Connectors and LEDs 24 Table SFP Module Jumpers and LEDs 25

MAX24288 EV KIT

Board Floorplan

When the board is oriented as shown in Figure 1, The 5V power supply and USB cable included with the kit are connected to jacks J1 and J2 at the top of the board. An SFP module is inserted into the SFP cage lower-left, and an appropriate cable is connected to the SFP module. The SFP module can be 1000BASE-X optical for a 1000Mbps optical connection, or it can contain a 10/100/1000Mbps copper PHY with an SGMII interface to the MAX24288 and an RJ-45 jack on the other side. The SFP module is the network side of the MAX24288, and timestamping of IEEE1588 messages occurs as packets enter and leave the MAX24288 from/to the SFP module. The board ships with a TCXO mounted in the Y3 oscillator position and a 25MHz XO in the Y1 position. See section 6 for detailed descriptions of the board’s jumpers, connectors and LEDs.

Y3 OSC

Pwr Jack

USB Jack

Y2 OSC

Processor

Y1 OSC

Ethernet SFP Module Cage
serial side of MAX24288

MAX 24288

Ethernet Switch IC
parallel side of MAX24288

MAX24288 Config Jumpers

Figure MAX24288 EV Kit Board Floorplan

Ethernet RJ-45 Jack

Ethernet RJ-45 Jack

MAX24288 EV KIT

Connections to the Board

Power-Supply Connection

The board is powered through connector J1 using the provided AC wall-plug 5V power supply. LED DS1 illuminates to indicate that the board is powered.

USB Connection

The MAX24288 EV kit software application communicates with the EV kit board through USB connector J2.

Ethernet Connections and IP Addresses

The Ethernet switch on the board, Realtek RTL8363, operates by default as a simple, unmanaged switch. To avoid set-up problems, each system connected to the MAX24288 EV Kit board must have a unique IP address.

Example Setup
1588 Master or Enet Grandmaster

Network
switches, routers

MAX24288EVKit

Enet

SFP ‘288 Switch

Enet

Running 1588 Code

Master Clock or 1PPS Signal
Ordering Information

PART MAX24288EVKIT

TYPE Evaluation Kit

Initial Release Reformatted for Microsemi. No content change.
8 D C B A

V3_3

V1_2

TX_EN
53 TXD5 52 TXD4
54 TXD6
55 TXD7
58 R44 TX_ER

GPIO2 GPIO3

SDO GPIO1

SCLK SDI

RST_DUT GTXCLK
68 REFCLK
60 R20 59 R23
62 61 R12
64 63
67 66

TP4 TP7

TP10

U6 TQFN

REFCLK RST_N

GTXCLK DVDD3.3

SCLK SDI SDO

GPIO1 GPIO2 GPIO3 TX_ER TX_EN DVDD1.2 TXD7 TXD6 TXD5 TXD4

TVDD33

TVDD12

TCLKN

TCLKP

TVDD33

TVDD12

RVDD33

RVDD12

TP8 17

GVSS CVDD3.3 CVDD1.2 CVSS TCLKN TCLKP TVDD3.3 TDN TDP TVSS TVDD1.2 RVDD3.3 RDP RDN RVSS RVDD1.2 NC

MAX24287, MAX24288 OR MAX24188

TXD3 51 TXD2 50 TXD1 49 TXD0 48 DVSS 47 TXCLK/RCLK1 46 CS_N 45 JTDO 44 JTRST 43 MDIO 42 MDC 41 RXCLK 40 DVDD3.3 39 RXD0 38 RXD1 37 RXD2 36 RXD3 35

TXD3 TXD2 TXD1 TXD0

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Datasheet ID: MAX24288EVKIT# 649051