Critical Link MityDSP-6748 Design Manual Download Page 1 | Manualshive

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Critical Link MityDSP-6748 Design Manual Download Page 1

Page 1 of 17

Document Revision: 1.7

– MityDSP-L138 Revision 4A

Critical Link reserves the right to make corrections, modifications, enhancements, and other changes to this document at any time and without notice.

Mity

DSP

TM

Document

Document:

MityDSP-L138, MitySOM-1808, MitySOM-1810, MityDSP-6748 Carrier Board Design Guide

Revision:

1.7

Date:

March 5, 2014

1

Overview

1.1

Fast Facts for Getting Started

Facts

MityDSP-L138, MitySOM-1808, MitySOM-1810, MityDSP-6748

Required socket connector

FCI 10033853-152FSLF, FCI 10116658-152FSLF or equivalent

Voltages required

3.3V

Supported I/O standards

LVCMOS33

SOC Peripherals*

3x UART, 2x SPI, EMAC (MII or RMII), 2x I2C, McASP, 2x McBSP

*SOC peripherals share pins, see SOC datasheet for specific pin-multiplexing options

1.2

Introduction

The MityDSP-L138, MitySOM-1808, MitySOM-1810 and MityDSP-6748 modules are System On Modules (SOMs)
designed to be easy to integrate into an end-user embedded system. The modules integrate many crucial
elements of an embedded system, and do so with an established design framework utilizing a common set of
core libraries. End-user design of the application PCB is also intended to be as simple as possible, allowing the
PCB designer to concentrate on the custom I/O interfaces – especially analog & mixed-signal – instead of getting
distracted with the learning curve of designing a brand new embedded digital system from scratch.

1.3

MityDSP-L138 Family Modules

The MityDSP-L138, MitySOM-1808, and MityDSP-6748 family of modules represents a 3

rd

generation SOM in the

MityDSP product line. These modules are based on a Texas Instruments OMAP-L138, Sitara-1808, Sitara-1810
and the TMS320C6748 System On Chip (SOC) modules, respectively. Each of these SOC modules are pin
compatible devices that employ one or both of an ARM 9 core and a DSP 674x floating point DSP core according
to the table below.

Core

OMAP-L138

AM1808

TMS320C6748

ARM926EJ-S 300/375/456 MHz

Y

Y

N

DSP 674X Floating Point DSP 300/375/456 MHz

Y

N

Y

1
2
3
...
»

Summary of Contents for MityDSP-6748

Page 1: ... integrate into an end user embedded system The modules integrate many crucial elements of an embedded system and do so with an established design framework utilizing a common set of core libraries End user design of the application PCB is also intended to be as simple as possible allowing the PCB designer to concentrate on the custom I O interfaces especially analog mixed signal instead of gettin...

Page 2: ...O and Gigabit Ethernet interfaces provided by the DSP and DDR SDRAM dedicated to the FPGA The 1st generation family of modules the MityDSP and MityDSP XM MityDSP 6711 and MityDSP 6711XM are based on a Texas Instruments TMS3206711 DSP include SDRAM and Flash memories and are interfaced using a 144 pin SO DIMM card edge connector The module integrates a Xilinx Spartan 3 FPGA for implementing require...

Page 3: ...4A Critical Link reserves the right to make corrections modifications enhancements and other changes to this document at any time and without notice 1 5 Module Dimensions A dimensioned drawing of module is included below in Figure 1 Figure 1 MityDSP L138 MitySOM 1808 MitySOM 1810 MityDSP 6748 Mechanical Drawing ...

Page 4: ...te that the MityDSP is NOT electrically compatible with the DDR2 socket standard and intermixing modules sockets from the two standards would very possibly cause permanent damage to one or both sides 2 2 Module Pin out The SO DIMM card edge interface contains 4 classes of signals Power PWR Dedicated signals mapped to the processor D Dedicated signals when NAND memory is populated on the module D M...

Page 5: ... O MMCSD0_DAT 2 63 PWR GND 64 PWR GND 65 F19 M O UART1_TXD 66 A11 M I O MMCSD0_DAT 1 67 E18 M I UART1_RXD 68 B10 M I O MMCSD0_DAT 0 69 E16 M O MDIO_CLK 70 A10 M I O MMCSD0_CMD 71 D17 M I O MDIO_D 72 E9 M O MMCSD0_CLK 73 D19 M I MII_RXCLK 74 D3 M I MII_TXCLK 75 C17 M I MII_RXDV 76 E3 M O MII_TXD 3 77 D16 M I MII_RXD 0 78 E2 M O MII_TXD 2 79 E17 M I MII_RXD 1 80 E1 M O MII_TXD 1 81 D18 M I MII_RXD 2...

Page 6: ...LKIN2 143 D9 D I O EMA_D 9 144 G3 M I O UPP_CHB_WAIT 145 E10 D I O EMA_D 8 146 G2 M I O UPP_CHB_START 147 D7 D I O EMA_D 7 148 G1 M I O UPP_CHB_CLK 149 C6 D I O EMA_D 6 150 W14 M I VP_CLKIN0 151 PWR GND 152 PWR GND 153 E7 D I O EMA_D 5 154 P4 M I O LCD_D 15 155 B5 D I O EMA_D 4 156 R3 M I O LCD_D 14 157 E8 D I O EMA_D 3 158 R2 M I O LCD_D 13 159 B8 D I O EMA_D 2 160 R1 M I O LCD_D 12 161 A8 D I O ...

Page 7: ...l low to configure booting from external UART1 RESET_IN I Manual Reset When pulled to GND for a minimum of 1 usec resets the DSP processor SPI1_ I O Serial Peripheral Interface 1 pins These pins are direct connects to the corresponding SPI1_ pins on the OMAP L138 processor The SPI1_ function pins are multiplexed with other functions These include PWM Timers UARTs I2C0 and GPIO For details please r...

Page 8: ...ns GND N A System Digital Ground EMA_ I O EMIF A pins These pins are direct connects to the corresponding EMA_ pins on the OMAP L138 processor Alternatively these pins can be configured as GPIOs For details please refer to the OMAP L138 Sitara 1808 or TMS320C6748 processor specifications UPP_ I O Universal Parallel Port pins These pins are direct connects to the corresponding UPP_ pins on the OMAP...

Page 9: ...ultiplexed with other functions These include UPP MMCSD1 and GPIO For details please refer to the OMAP L138 Sitara 1808 or TMS320C6748 processor specifications RESET_OUT I O Reset Output pin This pin is a direct connect to the RESET_OUT pin on the OMAP L138 processor This pin can also be configured as a GPIO For details please refer to the OMAP L138 Sitara 1808 or TMS320C6748 processor specificati...

Page 10: ... V I3 3 170 300 TBD mA 3 2 Recommended Capacitance All MityDSP L138 family modules include some power supply rail bypass capacitors on board however additional capacitance is recommended on the carrier board to minimize the ripple effect caused by changing load currents It is common practice to place one 10uF tantalum capacitor nearby each power supply pin pair Please note that this is the minimum...

Page 11: ...ided by the SOC These ports support a variety of synchronous serial communication protocols including TDM and SPI types They can be used for connectivity to a wide array of data converters DACs and ADCs other DSPs and other communications equipment The signals are connected directly to the CPU SOC device pins and are configured for 3 3 V I O logic For more information please consult the DSP device...

Page 12: ...an RJ 45 style connector RJHSE 5381 or equivalent on the carrier board A connector with integrated magnetics and passives may also be used in place of discrete components All of the SOCs in this family of MityDSP OMAP L138 Sitara 1808 Sitara 1810 and DSP6748 provide support for both standard Media Independent Interface MII and Reduced Media Independent Interface RMII formats The MityDSP L138 famil...

Page 13: ...nal data bus Instead one port can be configured as output the other as input and both can operate independently and simultaneously The UPP ports are useful in moving data to from CODECs DACs ADCx FPGAs ASICs and other processors Please refer to the SOC datasheets and user guides for more information on the operation of the UPP ports 3 3 13 LCD Controller All MityDSP L138 MitySOM 1808 MitySOM 1810 ...

Page 14: ...anically compatible but not necessarily footprint compatible with the connector mentioned above Please contact Critical Link for a current list of compatible connector sockets for the module 4 2 Module Clearance All module types use a SO DIMM style main interface connector for electrical and mechanical attachment to the carrier board This style of connector positions the MityDSP module in parallel...

Page 15: ...etails about utilizing this option Drawing is not to scale Socket Connector MityDSP L138 MitySOM 1808 MitySOM 1810 MityDSP 6748 Module Carrier Board Standoff Hardware Module Center Line 3 3mm 2 8mm 3 0mm Figure 3 Standoff based Hold Down Concept Drawing 4 4 Shock Vibration For customers who are interested in using MityDSP modules in rugged environments the optional mechanical attachment methods di...

Page 16: ...ets The modules are generally installed at an angle of about 25 to 30 before swinging down to locked position Enclosure designs should accommodate this motion 5 2 Pin out and Routing Care must be taken when routing the SOC high speed interfaces specifically the USB 1 0 and 2 0 OTG ports and the SATA ports Please refer to the specific SOC device specification for guidance related to these pins 5 3 ...

Page 17: ...Recommended PCB Footprint 6 Revision History Revision Date Description of Changes 1 0 11 September 2010 Initial Revision 1 1 11 November 2011 Added Revision History Added I2C address for PMIC 1 2 13 February 2012 Fix typo in signal names for pins 79 81 and 83 1 3 13 February 2012 Fix typo in pinout table pins 160 170 and 180 were incorrectly numbered 1 4 19 April 2012 Remove erroneous references t...

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