TDA3MV Datasheet, PDF(121/256 Page) Texas Instruments – TDA3x SoC for Advanced Driver Assistance Systems (ADAS) 15mm Package (ABF) Silicon Revision 2.0

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

TDA3MV Datasheet, PDF (121/256 Pages) Texas Instruments – TDA3x SoC for Advanced Driver Assistance Systems (ADAS) 15mm Package (ABF) Silicon Revision 2.0

◁

www.ti.com

TDA3MV, TDA3MA

TDA3LX, TDA3LA

SPRS964C â JUNE 2016 â REVISED JULY 2017

G = (1 + 0.5 * ADVExtraDelay) * GPMC_FCLK if ((ADVRdOffTime â ClkActivationTime â 1) is a multiple of 3)

G = (2 + 0.5 * ADVExtraDelay) * GPMC_FCLK if ((ADVRdOffTime â ClkActivationTime â 2) is a multiple of 3)

Case GpmcFCLKDivider = 3:

G = 0.5 * ADVExtraDelay * GPMC_FCLK if ((ADVRdOffTime â ClkActivationTime) is a multiple of 4)

G = (1 + 0.5 * ADVExtraDelay) * GPMC_FCLK if ((ADVRdOffTime â ClkActivationTime â 1) is a multiple of 4)

G = (2 + 0.5 * ADVExtraDelay) * GPMC_FCLK if ((ADVRdOffTime â ClkActivationTime â 2) is a multiple of 4)

G = (3 + 0.5 * ADVExtraDelay) * GPMC_FCLK if ((ADVRdOffTime â ClkActivationTime â 3) is a multiple of 4)

For ADV rising edge (ADV deactivated) in Writing mode:

Case GpmcFCLKDivider = 0:

G = 0.5 * ADVExtraDelay * GPMC_FCLK

Case GpmcFCLKDivider = 1:

G = 0.5 * ADVExtraDelay * GPMC_FCLK if (ClkActivationTime and ADVWrOffTime are odd) or (ClkActivationTime and ADVWrOffTime

are even)

G = (1 + 0.5 * ADVExtraDelay) * GPMC_FCLK otherwise

Case GpmcFCLKDivider = 2:

G = 0.5 * ADVExtraDelay * GPMC_FCLK if ((ADVWrOffTime â ClkActivationTime) is a multiple of 3)

G = (1 + 0.5 * ADVExtraDelay) * GPMC_FCLK if ((ADVWrOffTime â ClkActivationTime â 1) is a multiple of 3)

G = (2 + 0.5 * ADVExtraDelay) * GPMC_FCLK if ((ADVWrOffTime â ClkActivationTime â 2) is a multiple of 3)

Case GpmcFCLKDivider = 3:

G = 0.5 * ADVExtraDelay * GPMC_FCLK if ((ADVWrOffTime â ClkActivationTime) is a multiple of 4)

G = (1 + 0.5 * ADVExtraDelay) * GPMC_FCLK if ((ADVWrOffTime â ClkActivationTime â 1) is a multiple of 4)

G = (2 + 0.5 * ADVExtraDelay) * GPMC_FCLK if ((ADVWrOffTime â ClkActivationTime â 2) is a multiple of 4)

G = (3 + 0.5 * ADVExtraDelay) * GPMC_FCLK if ((ADVWrOffTime â ClkActivationTime â 3) is a multiple of 4)

(8) For OE falling edge (OE activated):

Case GpmcFCLKDivider = 0:

- H = 0.5 * OEExtraDelay * GPMC_FCLK

Case GpmcFCLKDivider = 1:

- H = 0.5 * OEExtraDelay * GPMC_FCLK if (ClkActivationTime and OEOnTime are odd) or (ClkActivationTime and OEOnTime are even)

- H = (1 + 0.5 * OEExtraDelay) * GPMC_FCLK otherwise

Case GpmcFCLKDivider = 2:

- H = 0.5 * OEExtraDelay * GPMC_FCLK if ((OEOnTime â ClkActivationTime) is a multiple of 3)

- H = (1 + 0.5 * OEExtraDelay) * GPMC_FCLK if ((OEOnTime â ClkActivationTime â 1) is a multiple of 3)

- H = (2 + 0.5 * OEExtraDelay) * GPMC_FCLK if ((OEOnTime â ClkActivationTime â 2) is a multiple of 3)

Case GpmcFCLKDivider = 3:

- H = 0.5 * OEExtraDelay * GPMC_FCLK if ((OEOnTime - ClkActivationTime) is a multiple of 4)

- H = (1 + 0.5 * OEExtraDelay) * GPMC_FCLK if ((OEOnTime - ClkActivationTime - 1) is a multiple of 4)

- H = (2 + 0.5 * OEExtraDelay) * GPMC_FCLK if ((OEOnTime - ClkActivationTime - 2) is a multiple of 4)

- H = (3 + 0.5 * OEExtraDelay)) * GPMC_FCLK if ((OEOnTime - ClkActivationTime - 3) is a multiple of 4)

For OE rising edge (OE deactivated):

Case GpmcFCLKDivider = 0:

- H = 0.5 * OEExtraDelay * GPMC_FCLK

Case GpmcFCLKDivider = 1:

- H = 0.5 * OEExtraDelay * GPMC_FCLK if (ClkActivationTime and OEOffTime are odd) or (ClkActivationTime and OEOffTime are even)

- H = (1 + 0.5 * OEExtraDelay) * GPMC_FCLK otherwise

Case GpmcFCLKDivider = 2:

- H = 0.5 * OEExtraDelay * GPMC_FCLK if ((OEOffTime â ClkActivationTime) is a multiple of 3)

- H = (1 + 0.5 * OEExtraDelay) * GPMC_FCLK if ((OEOffTime â ClkActivationTime â 1) is a multiple of 3)

- H = (2 + 0.5 * OEExtraDelay) * GPMC_FCLK if ((OEOffTime â ClkActivationTime â 2) is a multiple of 3)

Case GpmcFCLKDivider = 3:

- H = 0.5 * OEExtraDelay * GPMC_FCLK if ((OEOffTime â ClkActivationTime) is a multiple of 4)

- H = (1 + 0.5 * OEExtraDelay) * GPMC_FCLK if ((OEOffTime â ClkActivationTime â 1) is a multiple of 4)

- H = (2 + 0.5 * OEExtraDelay) * GPMC_FCLK if ((OEOffTime â ClkActivationTime â 2) is a multiple of 4)

- H = (3 + 0.5 * OEExtraDelay) * GPMC_FCLK if ((OEOffTime â ClkActivationTime â 3) is a multiple of 4)

(9) For WE falling edge (WE activated):

Case GpmcFCLKDivider = 0:

- I = 0.5 * WEExtraDelay * GPMC_FCLK

Case GpmcFCLKDivider = 1:

- I = 0.5 * WEExtraDelay * GPMC_FCLK if (ClkActivationTime and WEOnTime are odd) or (ClkActivationTime and WEOnTime are

even)

- I = (1 + 0.5 * WEExtraDelay) * GPMC_FCLK otherwise

Case GpmcFCLKDivider = 2:

- I = 0.5 * WEExtraDelay * GPMC_FCLK if ((WEOnTime â ClkActivationTime) is a multiple of 3)

- I = (1 + 0.5 * WEExtraDelay) * GPMC_FCLK if ((WEOnTime â ClkActivationTime â 1) is a multiple of 3)

- I = (2 + 0.5 * WEExtraDelay) * GPMC_FCLK if ((WEOnTime â ClkActivationTime â 2) is a multiple of 3)

Case GpmcFCLKDivider = 3:

- I = 0.5 * WEExtraDelay * GPMC_FCLK if ((WEOnTime - ClkActivationTime) is a multiple of 4)

- I = (1 + 0.5 * WEExtraDelay) * GPMC_FCLK if ((WEOnTime - ClkActivationTime - 1) is a multiple of 4)

- I = (2 + 0.5 * WEExtraDelay) * GPMC_FCLK if ((WEOnTime - ClkActivationTime - 2) is a multiple of 4)

- I = (3 + 0.5 * WEExtraDelay) * GPMC_FCLK if ((WEOnTime - ClkActivationTime - 3) is a multiple of 4)

For WE rising edge (WE deactivated):

Case GpmcFCLKDivider = 0:

- I = 0.5 * WEExtraDelay * GPMC_FCLK

Copyright Â© 2016â2017, Texas Instruments Incorporated

Timing Requirements and Switching Characteristics 121

Submit Documentation Feedback

Product Folder Links: TDA3MV TDA3MA TDA3LX TDA3LA

▷