MCIMX6S1AVM08ABR Freescale Semiconductor, MCIMX6S1AVM08ABR Datasheet - Page 106

MCIMX6S1AVM08ABR

Manufacturer Part Number

MCIMX6S1AVM08ABR

Description

Processors - Application Specialized i.MX6 Solo rev 1.1

Manufacturer

Freescale Semiconductor

Type

Multimedia Applicationsr

Datasheet

1.MCIMX6S6AVM08ABR.pdf (174 pages)

Specifications of MCIMX6S1AVM08ABR

Rohs

yes

Core

ARM Cortex A9

Processor Series

i.MX6

Data Bus Width

32 bit

Maximum Clock Frequency

800 MHz

Data Ram Size

16 KB

Operating Supply Voltage

1.175 V to 1.5 V

Maximum Operating Temperature

+ 125 C

Mounting Style

SMD/SMT

Package / Case

MAPBGA-624

Interface Type

Parallel

Memory Type

L1/L2 Cache, ROM, SRAM

Minimum Operating Temperature

- 40 C

Number Of Timers

Current page: 106 of 174
Download datasheet (2Mb)

Electrical Characteristics

4.11.10.5 IPU Display Interface Timing

The IPU Display Interface supports two kinds of display accesses: synchronous and asynchronous. There

are two groups of external interface pins to provide synchronous and asynchronous controls accordantly.

4.11.10.5.1 Synchronous Controls

The synchronous control changes its value as a function of a system or of an external clock. This control

has a permanent period and a permanent wave form.

There are special physical outputs to provide synchronous controls:

The IPU has a system of internal binding counters for internal events (such as, HSYNC/VSYCN)

calculation. The internal event (local start point) is synchronized with internal DI_CLK. A suitable control

starts from the local start point with predefined UP and DOWN values to calculate control’s changing

points with half DI_CLK resolution. A full description of the counters system can be found in the IPU

chapter of the i.MX 6Solo/6DualLite Reference Manual (IMX6SDLRM).

4.11.10.5.2 Asynchronous Controls

The asynchronous control is a data-oriented signal that changes its value with an output data according to

additional internal flags coming with the data.

There are special physical outputs to provide asynchronous controls, as follows:

106

•

The ipp_disp_clk is a dedicated base synchronous signal that is used to generate a base display

(component, pixel) clock for a display.

The ipp_pin_1– ipp_pin_7 are general purpose synchronous pins, that can be used to provide

HSYNC, VSYNC, DRDY or any else independent signal to a display.

The ipp_d0_cs and ipp_d1_cs pins are dedicated to provide chip select signals to two displays.

The ipp_pin_11– ipp_pin_17 are general purpose asynchronous pins, that can be used to provide

WR. RD, RS or any other data oriented signal to display.

Table 71

Disp1 port has reduced pinout depending on IOMUXC configuration and

therefore may not support all the above configurations. See the IOMUXC

table for details.

The IPU has independent signal generators for asynchronous signals

toggling. When a DI decides to put a new asynchronous data in the bus, a

new internal start (local start point) is generated. The signals generators

calculate predefined UP and DOWN values to change pins states with half

DI_CLK resolution.

i.MX 6Solo/6DualLite Automotive and Infotainment Applications Processors, Rev. 1

provides information for both the Disp0 and Disp1 ports. However,

NOTE

Freescale Semiconductor

MCIMX6S1AVM08ABR Freescale Semiconductor, MCIMX6S1AVM08ABR Datasheet - Page 106

MCIMX6S1AVM08ABR

Specifications of MCIMX6S1AVM08ABR

Related parts for MCIMX6S1AVM08ABR