ZHCSQX1A August 2022 – December 2022 LP5891-Q1
PRODUCTION DATA
While operating the LP5891-Q1 in stackable mode, as shown in below table.
Mode | Matrix Size | Register Value | Scan Sequence |
---|---|---|---|
Mode1 | 16x32 | 000b | D1, D2 independent |
Mode2 | 32x32 | 001b | D1->D2 |
Mode3 | 48x48 | 010b | D1->D2->D3 |
Mode4 | 48x48 | 011b | D1->D3->D2 |
Mode5 | 48x64 | 100b | D1->D2->D3 |
Mode6 | 48x64 | 101b | D1->D3->D2 |
Mode7 | 64x64 | 110b | D1->D2->D3->D4 |
Mode8 | 64x64 | 111b | D1->D4->D2->D3 |
Figure 8-2 device 2 needs to be rotated 180o relative to device 1. This action allows the position of line switches to be near the center column of the LED matrix for better routing. For device 1, the lines connect sequentially (line switch 0 connected to scan line 1). However on device 2, it is connected in reverse order, with the 16th scan line is connected to line switch 15 and the 32nd scan line is connected to line switch 0.
Figure 8-2 shows the connection between two LP5891-Q1 devices in stackable mode driving 32 × 32 RGB LED pixels. The MOD_SIZE must be configured to 001b. Device 1 supplies 16 line switches for the first 16 scan line, and device 2 supplies 16 line switches for scan line 17-32. The data for matrix sections A and C are stored in device 1, while matrix sections B and D data are stored in device 2.
To make sure the scanning sequence is still from 1st line to 32nd line, the scan line switching order of the second device must be reversed, which can be configured by the SCAN_REV (see FC4 for more details).
When two or more LP5891-Q1 devices are used in stackable mode, if there are unused line switches, these unused line switches must be the last line switches of the first or the second device. For example, if there are only 30 scanning lines, and if,
SCAN_REV = '0'b, the unused line switches can be either of the below,
SCAN_REV = '1'b, the unused line switches can be either of below,
The unused line switches must be 2_LS14, 2_LS15 if SCAN_REV = '0'b, or 2_LS1, 2_LS0 if SCAN_REV = '1'b.