MCIMX31LCVKN5D Freescale, MCIMX31LCVKN5D Datasheet - Page 65

MCIMX31LCVKN5D

Manufacturer Part Number

MCIMX31LCVKN5D

Description

Manufacturer

Freescale

Datasheet

1.MCIMX31LCVKN5D.pdf (118 pages)

Specifications of MCIMX31LCVKN5D

Operating Temperature (min)

-40C

Operating Temperature (max)

85C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Lead Free Status / RoHS Status

Compliant

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4.3.15.4.2

The timing characteristics of the TV encoder interface are identical to the synchronous display

characteristics. See

Characteristics.”

4.3.15.5 Asynchronous Interfaces

4.3.15.5.1

The IPU supports the following asynchronous parallel interfaces:

For each of four system interfaces, there are three burst modes:

Both system 80 and system 68k interfaces are supported for all described modes as depicted in

Figure

DISPB_D#_WR and DISPB_D#_RD signals.

Additionally, the IPU allows a programmable pause between two burst. The pause is defined in the

HSP_CLK cycles. It allows to avoid timing violation between two sequential bursts or two accesses to

different displays. The range of this pause is from 4 to 19 HSP_CLK cycles.

Freescale Semiconductor

•

1. Burst mode without a separate clock. The burst length is defined by the corresponding parameters

2. Burst mode with the separate clock DISPB_BCLK. In this mode, data is sampled with the

3. Single access mode. In this mode, slave AHB and DMA burst are broken to single accesses. The

52,

System 80 interface

— Type 1 (sampling with the chip select signal) with and without byte enable signals.

— Type 2 (sampling with the read and write signals) with and without byte enable signals.

System 68k interface

— Type 1 (sampling with the chip select signal) with or without byte enable signals.

— Type 2 (sampling with the read and write signals) with or without byte enable signals.

of the IDMAC (when data is transferred from the system memory) of by the HBURST signal

(when the MCU directly accesses the display via the slave AHB bus). For system 80 and system

68k type 1 interfaces, data is sampled by the CS signal and other control signals changes only when

transfer direction is changed during the burst. For type 2 interfaces, data is sampled by the WR/RD

signals (system 80) or by the ENABLE signal (system 68k) and the CS signal stays active during

the whole burst.

DISPB_BCLK clock. The CS signal stays active during whole burst transfer. Other controls are

changed simultaneously with data when the bus state (read, write or wait) is altered. The CS

signals and other controls move to non-active state after burst has been completed.

data is sampled with CS or other controls according the interface type as described above. All

controls (including CS) become non-active for one display interface clock after each access. This

mode corresponds to the ATI single access mode.

Figure

Interface to a TV Encoder,

Parallel Interfaces,

53, and

Section 4.3.15.2.2, “Interface to Active Matrix TFT LCD Panels, Electrical

Figure

MCIMX31/MCIMX31L Technical Data, Rev. 4.3

54. These timing images correspond to active-low DISPB_D#_CS,

Functional Description

Electrical Characteristics

Figure

51,

MCIMX31LCVKN5D Freescale, MCIMX31LCVKN5D Datasheet - Page 65

MCIMX31LCVKN5D

Specifications of MCIMX31LCVKN5D

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