Toradex Verdin, Руководство пользователя

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Verdin Carrier Board Design Guide
Preliminary
– Subject to Change
Toradex AG l Ebenaustrasse 10 l 6048 Horw l Switzerland l +41 41 500 48 00 l www.toradex.com l info@toradex.com
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2.6.2.3 DSI to Parallel RGB Schematic Example
The DSI to parallel RGB bridge TC358867XBG from Toshiba in the schematic below only supports
1.8V logic level at the RGB output signals. Depending on the display, a level shifter is required.
Figure 32: DSI to Parallel RGB reference schematic
2.6.3
MIPI DSI Display Adapters
Toradex offers several MIPI DSI display adapters for bridging to HDMI, LVDS, parallel RGB, and
other common display interfaces. These simple and flexible products are meant to be used
primarily for evaluation purposes. The adapters are based on the Samtec LSS-130-03-L-DV-A-K-TR
high-speed connector ( https://www.samtec.com/products/lss-130-03-l-dv-a-k-tr ). This connector is
hermaphroditic which means that the same connector is used on the carrier board as well as the
display adapter. However, the location of pin 1 needs to be different for mating these two boards
together.
DSIDM2
F1
DSIDP2
F2
VSS
F4
VSS
F5
TEST
F6
DPI_D11
F7
DPI_D17
F9
DPI_D18
F10
DSIDM3
G1
DSIDP3
G2
VSS_DP
G4
VSS_DP
G5
VSS_DP
G6
DPI_D12
G7
DPI_D19
G9
DPI_PCLK
G10
PREC_RES0
H1
DISABLE_ASSR
H2
DPI_D20
H9
DPI_D21
H10
PREC_RES1
J1
MODE1
J2
DPLNP0
J3
VDD_DP12
J4
MODE0
J5
DPLNP1
J6
GPIO1
J7
DPAUXP
J8
RESX
J9
DPI_D23
J10
REFCLK
K1
VDD_DP18
K2
DPLNM0
K3
VDD_DP12
K4
VDD_PLL18
K5
DPLNM1
K6
VDD_DP18
K7
DPAUXM
K8
VDD_PLL912
K9
DPI_D22
K10
INT
A1
GPIO0
A2
DPI_VSYNC
A3
DPI_D0
A4
VDDC
A5
VDDC
A6
DPI_D3
A7
VDDS
A8
I2C_SDA
A9
I2C_SCL
A10
DSIDM0
B1
DSIDP0
B2
DPI_DE
B3
DPI_HSYNC
B4
DPI_D1
B5
DPI_D2
B6
DPI_D4
B7
DPI_D7
B8
DPI_D5
B9
DPI_D6
B10
DSIDM1
C1
DSIDP1
C2
DPI_D9
C9
DPI_D8
C10
DSICM
D1
DSICP
D2
I2S_LRCLK
D4
I2S_BCLK
D5
SD/I2S_OSCLK
D6
I2S_DATA
D7
DPI_D13
D9
DPI_D14
D10
VDD_DSI12
E1
I2C_ADR_SEL
E2
VSS
E4
TEST3
E5
VPGM0
E6
DPI_D10
E7
DPI_D16
E9
DPI_D15
E10
IC5
DSI_1_D0_N
DSI_1_D0_P
DSI_1_D1_N
DSI_1_D1_P
DSI_1_CLK_N
DSI_1_CLK_P
DSI_1_D2_N
DSI_1_D2_P
DSI_1_D3_N
DSI_1_D3_P
DIFF100
I2C_1_T_SCL
I2C_1_T_SDA
GND
100nF
16V
C9
GND
100nF
16V
C18
GND
10nF
16V
C19
GND
800mA
220R@100MHz
L1
10nF
16V
C10
GND
10nF
16V
C13
GND
100nF
16V
C14
GND
10nF
16V
C11
GND
100nF
16V
C12
GND
800mA
220R@100MHz
L2
100nF
16V
C27
GND
10nF
16V
C28
GND
100nF
16V
C22
GND
10nF
16V
C23
GND
100nF
16V
C24
GND
10nF
16V
C25
GND
GND
+V1.8
GND
R29
3K
800mA
220R@100MHz
L3
100nF
16V
C30
GND
10nF
16V
C31
GND
10uF
6.3V
C29
GND GND
LCD_1_B2
LCD_1_B3
LCD_1_B4
LCD_1_B5
LCD_1_B6
LCD_1_B7
LCD_1_G2
LCD_1_G3
LCD_1_G4
LCD_1_G5
LCD_1_G6
LCD_1_G7
LCD_1_R2
LCD_1_R3
LCD_1_R4
LCD_1_R5
LCD_1_R6
LCD_1_R7
LCD_1_PCLK
LCD_1_HSYNC
LCD_1_VSYNC
LCD_1_DE
+V1.2
+V1.8
+V1.8
R14
100K
+V1.8
GND
I2C_ADDR_SEL = 0, TC358867XBG I²C address 0x68
I2C_ADDR_SEL = 1, TC358867XBG I²C address 0x0F
800mA
220R@100MHz
L7
800mA
220R@100MHz
L5
800mA
220R@100MHz
L4
800mA
220R@100MHz
L6
100nF
16V
C17
GND
10nF
16V
C16
GND
100nF
16V
C26
GND
10nF
16V
C21
GND
+V1.2
+V1.2
100nF
16V
C15
GND
10nF
16V
C8
GND
SiT1602BI-12-18E-26.000000E
EN
1
GND
2
OUT
3
VCC
4
OSC1
NTZD3154NT1G
2
1
6
T5A
R26
100K
GND GND
R25
4.7K
+V1.8
RGB_INT
LCD_1_B1
LCD_1_B0
LCD_1_G1
LCD_1_G0
LCD_1_R1
LCD_1_R0
DIFF100
DIFF100
DIFF100
DIFF100
DIFF100
DIFF100
DIFF100
DIFF100
DIFF100
DSI_1_D3_P
25
DSI_1_D2_N
29
DSI_1_D2_P
31
DSI_1_CLK_N
35
GPIO_09_DSI
17
PWM_3_DSI
19
GPIO_10_DSI
21
DSI_1_D3_N
23
DSI_1_CLK_P
37
DSI_1_D1_N
41
DSI_1_D1_P
43
DSI_1_D0_N
47
DSI_1_D0_P
49
I2C_2_DSI_SDA
53
I2C_2_DSI_SCL
55
X1C
2309409-2
I2C_1_SDA
12
I2C_1_SCL
14
X1M
2309409-2
DSI_1_D3_N
DSI_1_D3_P
DSI_1_D2_P
DSI_1_D2_N
DSI_1_D1_P
DSI_1_D1_N
DSI_1_D0_P
DSI_1_D0_N
DSI_1_CLK_P
DSI_1_CLK_N
+V1.8 +V1.8
R1
1.8K R2
1.8K
Display Brightness
DSI_1[0..7]
T
o
th
e
R
G
B
D
is
p
la
y
(1
.8
V
)
TC358867XBG