8.3.6 DSI Video Transmission Specifications

The SN65DSI85-Q1 supports burst video mode and non-burst video mode with sync events or with sync pulses packet transmission as described in the DSI specification. The burst mode supports time-compressed pixel stream packets that leave added time per scan line for power savings LP mode. The SN65DSI85-Q1 requires a transition to LP mode once per frame to enable PHY synchronization with the DSI host processor; however, for a robust and low-power implementation, the transition to LP mode is recommended on every video line.

Figure 17 shows the DSI video transmission applied to SN65DSI85-Q1 applications. In all applications, the LVDS output rate must be less than or equal to the DSI input rate. The first line of a video frame shall start with a VSS packet, and all other lines start with VSE or HSS. The position of the synchronization packets in time is of utmost importance since this has a direct impact on the visual performance of the display panel; that is, these packets generate the HS and VS (horizontal and vertical sync) signals on the LVDS interface after the delay programmed into CHA_SYNC_DELAY_LOW/HIGH (CSR 0x28.7:0 and 0x29.3:0) and/or CHB_SYNC_DELAY_LOW/HIGH (CSR 0x2A.7:0 and 0x2B.3:0). When configured for dual DSI channels, the SN65DSI85-Q1 uses the VSS, VSE, and HSS packets from channel A to generate the HS and VS (horizontal and vertical sync) signals on the LVDS interface, and the VSS, VSE, and HSS packets from channel B are ignored.

As required in the DSI specification, the SN65DSI85-Q1 requires that pixel stream packets contain an integer number of pixels (i.e. end on a pixel boundary); it is recommended to transmit an entire scan line on one pixel stream packet. When a scan line is broken in to multiple packets, inter-packet latency shall be considered such that the video pipeline (ie. pixel queue or partial line buffer) does not run empty (i.e. under-run); during scan line processing, if the pixel queue runs empty, the SN65DSI85-Q1 transmits zero data (18’b0 or 24’b0) on the LVDS interface.

When configured for dual DSI channels, the SN65DSI85-Q1 supports ODD/EVEN configurations and LEFT/RIGHT configurations. In the ODD/EVEN configuration, the odd pixels for each scan line are received on channel A, and the even pixels are received on channel B. In LEFT/RIGHT mode, the LEFT portion of the line is received on channel A, and the right portion of the line is received on channel B. Neither the channel A LEFT portion input or the channel B RIGHT portion input per line shall exceed 1408 pixels, which is defined as ½ of the maximum line size (2560 pixels in WQXGA 2560x1600 mode) plus 10% headroom. The pixels received on channel B in LEFT/RIGHT mode are buffered during the LEFT side transmission to LVDS, and begin transmission to LVDS when the LEFT-side input buffer runs empty.

When configured for two single DSI channels, the SN65DSI85-Q1 requires that the LVDS output clocks for both video data streams be the same.

Figure 17. DSI Channel Transmission and Transfer Function