Samsung Exynos 5 User Manual
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Exynos 5250_UM 4 Pad Control
4-42
4.4.1.44 GPC0DAT
Base Address: 0x1140_0000
Address = Base Address + 0x00E4, Reset Value = 0x00
Name Bit Type Description Reset Value
GPC0DAT[6:0] [6:0] RWX
When you configure the port as input port, the
corresponding bit is the pin state. When you configure
the port as output port, the pin state is the same as the
corresponding bit. W hen you configure the port as
functional pin, the undefined value will be read.
0x00
4.4.1.45...](http://img.usermanuals.tech/thumb/66/99535/w64_exynos-5-user-manual-1509363421_d-95.png "Page 96
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Exynos 5250_UM 4 Pad Control
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4.4.1.44 GPC0DAT
Base Address: 0x1140_0000
Address = Base Address + 0x00E4, Reset Value = 0x00
Name Bit Type Description Reset Value
GPC0DAT[6:0] [6:0] RWX
When you configure the port as input port, the
corresponding bit is the pin state. When you configure
the port as output port, the pin state is the same as the
corresponding bit. W hen you configure the port as
functional pin, the undefined value will be read.
0x00
4.4.1.45...")
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4.4.1.47 GPC0CONPDN
Base Address: 0x1140_0000
Address = Base Address + 0x00F0, Reset Value = 0x0000
Name Bit Type Description Reset Value
GPC0[n] [2n + 1:2n]
n = 0 to 6 RW
0x0 = Disables Pull-up/down
0x1 = Enables Pull-down
0x2 = Reserved
0x3 = Enables Pull-up
0x00
4.4.1.48 GPC0PUDPDN
Base Address: 0x1140_0000
Address = Base Address + 0x00F4, Reset Value = 0x0000
Name Bit Type Description Reset Value
GPC0[n] [2n +...](http://img.usermanuals.tech/thumb/66/99535/w64_exynos-5-user-manual-1509363421_d-96.png "Page 97
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Exynos 5250_UM 4 Pad Control
4-43
4.4.1.47 GPC0CONPDN
Base Address: 0x1140_0000
Address = Base Address + 0x00F0, Reset Value = 0x0000
Name Bit Type Description Reset Value
GPC0[n] [2n + 1:2n]
n = 0 to 6 RW
0x0 = Disables Pull-up/down
0x1 = Enables Pull-down
0x2 = Reserved
0x3 = Enables Pull-up
0x00
4.4.1.48 GPC0PUDPDN
Base Address: 0x1140_0000
Address = Base Address + 0x00F4, Reset Value = 0x0000
Name Bit Type Description Reset Value
GPC0[n] [2n +...")
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4.4.1.49 GPC1CON
Base Address: 0x1140_0000
Address = Base Address + 0x0100, Reset Value = 0x0000_0000
Name Bit Type Description Reset Value
GPC1CON[3] [15:12] RW
0x0 = Input
0x1 = Output
0x2 = SD_0_DATA[7],
0x3 to 0xE = Reserved
0xF = EXT_INT9[3]
0x00
GPC1CON[2] [11:8] RW
0x0 = Input
0x1 = Output
0x2 = SD_0_DATA[6],
0x3 to 0xE = Reserved
0xF = EXT_INT9[2]
0x00
GPC1CON[1] [7:4] RW
0x0 = Input
0x1 = Output
0x2 =...](http://img.usermanuals.tech/thumb/66/99535/w64_exynos-5-user-manual-1509363421_d-97.png "Page 98
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Exynos 5250_UM 4 Pad Control
4-44
4.4.1.49 GPC1CON
Base Address: 0x1140_0000
Address = Base Address + 0x0100, Reset Value = 0x0000_0000
Name Bit Type Description Reset Value
GPC1CON[3] [15:12] RW
0x0 = Input
0x1 = Output
0x2 = SD_0_DATA[7],
0x3 to 0xE = Reserved
0xF = EXT_INT9[3]
0x00
GPC1CON[2] [11:8] RW
0x0 = Input
0x1 = Output
0x2 = SD_0_DATA[6],
0x3 to 0xE = Reserved
0xF = EXT_INT9[2]
0x00
GPC1CON[1] [7:4] RW
0x0 = Input
0x1 = Output
0x2 =...")
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4.4.1.50 GPC1DAT
Base Address: 0x1140_0000
Address = Base Address + 0x0104, Reset Value = 0x00
Name Bit Type Description Reset Value
GPC1DAT[3:0] [3:0] RWX
When you configure the port as input port, the
corresponding bit is the pin state. When you configure
the port as output port, the pin state is the same as the
corresponding bit. W hen you configure the port as
functional pin, you can read the undefined value.
0x00
4.4.1.51...](http://img.usermanuals.tech/thumb/66/99535/w64_exynos-5-user-manual-1509363421_d-98.png "Page 99
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Exynos 5250_UM 4 Pad Control
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4.4.1.50 GPC1DAT
Base Address: 0x1140_0000
Address = Base Address + 0x0104, Reset Value = 0x00
Name Bit Type Description Reset Value
GPC1DAT[3:0] [3:0] RWX
When you configure the port as input port, the
corresponding bit is the pin state. When you configure
the port as output port, the pin state is the same as the
corresponding bit. W hen you configure the port as
functional pin, you can read the undefined value.
0x00
4.4.1.51...")
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Exynos 5250_UM 4 Pad Control
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4.4.1.53 GPC1CONPDN
Base Address: 0x1140_0000
Address = Base Address + 0x0110, Reset Value = 0x0000
Name Bit Type Description Reset Value
GPC1[n] [2n + 1:2n]
n = 0 to 3 RW
0x0 = Output 0
0x1 = Output 1
0x2 = Input
0x3 = Previous state
0x00
4.4.1.54 GPC1PUDPDN
Base Address: 0x1140_0000
Address = Base Address + 0x0114, Reset Value = 0x0000
Name Bit Type Description Reset Value
GPC1[n] [2n + 1:2n]
n = 0 to 3 RW
0x0 =...](http://img.usermanuals.tech/thumb/66/99535/w64_exynos-5-user-manual-1509363421_d-99.png "Page 100
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Exynos 5250_UM 4 Pad Control
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4.4.1.53 GPC1CONPDN
Base Address: 0x1140_0000
Address = Base Address + 0x0110, Reset Value = 0x0000
Name Bit Type Description Reset Value
GPC1[n] [2n + 1:2n]
n = 0 to 3 RW
0x0 = Output 0
0x1 = Output 1
0x2 = Input
0x3 = Previous state
0x00
4.4.1.54 GPC1PUDPDN
Base Address: 0x1140_0000
Address = Base Address + 0x0114, Reset Value = 0x0000
Name Bit Type Description Reset Value
GPC1[n] [2n + 1:2n]
n = 0 to 3 RW
0x0 =...")
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4.4.1.55 GPC2CON
Base Address: 0x1140_0000
Address = Base Address + 0x0120, Reset Value = 0x0000_0000
Name Bit Type Description Reset Value
GPC2CON[6] [27:24] RW
0x0 = Input
0x1 = Output
0x2 = SD_1_DATA[3]
0x3 to 0xE = Reserved
0xF = EXT_INT10[6]
0x00
GPC2CON[5] [23:20] RW
0x0 = Input
0x1 = Output
0x2 = SD_1_DATA[2]
0x3 to 0xE = Reserved
0xF = EXT_INT10[5]
0x00
GPC2CON[4] [19:16] RW
0x0 = Input
0x1 = Output
0x2 =...](http://img.usermanuals.tech/thumb/66/99535/w64_exynos-5-user-manual-1509363421_d-100.png "Page 101
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Exynos 5250_UM 4 Pad Control
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4.4.1.55 GPC2CON
Base Address: 0x1140_0000
Address = Base Address + 0x0120, Reset Value = 0x0000_0000
Name Bit Type Description Reset Value
GPC2CON[6] [27:24] RW
0x0 = Input
0x1 = Output
0x2 = SD_1_DATA[3]
0x3 to 0xE = Reserved
0xF = EXT_INT10[6]
0x00
GPC2CON[5] [23:20] RW
0x0 = Input
0x1 = Output
0x2 = SD_1_DATA[2]
0x3 to 0xE = Reserved
0xF = EXT_INT10[5]
0x00
GPC2CON[4] [19:16] RW
0x0 = Input
0x1 = Output
0x2 =...")
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4.4.1.56 GPC2DAT
Base Address: 0x1140_0000
Address = Base Address + 0x0124, Reset Value = 0x00
Name Bit Type Description Reset Value
GPC2DAT[6:0] [6:0] RWX
When you configure the port as input port, the
corresponding bit is the pin state. When you configure
the port as output port, the pin state is the same as the
corresponding bit. W hen you configure the port as
functional pin, the undefined value will be read.
0x00
4.4.1.57...](http://img.usermanuals.tech/thumb/66/99535/w64_exynos-5-user-manual-1509363421_d-101.png "Page 102
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Exynos 5250_UM 4 Pad Control
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4.4.1.56 GPC2DAT
Base Address: 0x1140_0000
Address = Base Address + 0x0124, Reset Value = 0x00
Name Bit Type Description Reset Value
GPC2DAT[6:0] [6:0] RWX
When you configure the port as input port, the
corresponding bit is the pin state. When you configure
the port as output port, the pin state is the same as the
corresponding bit. W hen you configure the port as
functional pin, the undefined value will be read.
0x00
4.4.1.57...")
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4.4.1.59 GPC2CONPDN
Base Address: 0x1140_0000
Address = Base Address + 0x0130, Reset Value = 0x0000
Name Bit Type Description Reset Value
GPC2[n] [2n + 1:2n]
n = 0 to 6 RW
0x0 = Output 0
0x1 = Output 1
0x2 = Input
0x3 = Previous state
0x00
4.4.1.60 GPC2PUDPDN
Base Address: 0x1140_0000
Address = Base Address + 0x0134, Reset Value = 0x0000
Name Bit Type Description Reset Value
GPC2[n] [2n + 1:2n]
n = 0 to 6 RW
0x0 =...](http://img.usermanuals.tech/thumb/66/99535/w64_exynos-5-user-manual-1509363421_d-102.png "Page 103
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Exynos 5250_UM 4 Pad Control
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4.4.1.59 GPC2CONPDN
Base Address: 0x1140_0000
Address = Base Address + 0x0130, Reset Value = 0x0000
Name Bit Type Description Reset Value
GPC2[n] [2n + 1:2n]
n = 0 to 6 RW
0x0 = Output 0
0x1 = Output 1
0x2 = Input
0x3 = Previous state
0x00
4.4.1.60 GPC2PUDPDN
Base Address: 0x1140_0000
Address = Base Address + 0x0134, Reset Value = 0x0000
Name Bit Type Description Reset Value
GPC2[n] [2n + 1:2n]
n = 0 to 6 RW
0x0 =...")
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4.4.1.61 GPC3CON
Base Address: 0x1140_0000
Address = Base Address + 0x0140, Reset Value = 0x0000_0000
Name Bit Type Description Reset Value
GPC3CON[6] [27:24] RW
0x0 = Input
0x1 = Output
0x2 = SD_2_DATA[3]
0x3 to 0xE = Reserved
0xF = EXT_INT11[6]
0x00
GPC3CON[5] [23:20] RW
0x0 = Input
0x1 = Output
0x2 = SD_2_DATA[2]
0x3 to 0xE = Reserved
0xF = EXT_INT11[5]
0x00
GPC3CON[4] [19:16] RW
0x0 = Input
0x1 = Output
0x2 =...](http://img.usermanuals.tech/thumb/66/99535/w64_exynos-5-user-manual-1509363421_d-103.png "Page 104
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Exynos 5250_UM 4 Pad Control
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4.4.1.61 GPC3CON
Base Address: 0x1140_0000
Address = Base Address + 0x0140, Reset Value = 0x0000_0000
Name Bit Type Description Reset Value
GPC3CON[6] [27:24] RW
0x0 = Input
0x1 = Output
0x2 = SD_2_DATA[3]
0x3 to 0xE = Reserved
0xF = EXT_INT11[6]
0x00
GPC3CON[5] [23:20] RW
0x0 = Input
0x1 = Output
0x2 = SD_2_DATA[2]
0x3 to 0xE = Reserved
0xF = EXT_INT11[5]
0x00
GPC3CON[4] [19:16] RW
0x0 = Input
0x1 = Output
0x2 =...")
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4.4.1.62 GPC3DAT
Base Address: 0x1140_0000
Address = Base Address + 0x0144, Reset Value = 0x00
Name Bit Type Description Reset Value
GPC3DAT[6:0] [6:0] RWX
When you configure the port as input port, the
corresponding bit is the pin state. When you configure
the port as output port, the pin state is the same as the
corresponding bit. W hen you configure the port as
functional pin, the undefined value will be read.
0x00
4.4.1.63...](http://img.usermanuals.tech/thumb/66/99535/w64_exynos-5-user-manual-1509363421_d-104.png "Page 105
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Exynos 5250_UM 4 Pad Control
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4.4.1.62 GPC3DAT
Base Address: 0x1140_0000
Address = Base Address + 0x0144, Reset Value = 0x00
Name Bit Type Description Reset Value
GPC3DAT[6:0] [6:0] RWX
When you configure the port as input port, the
corresponding bit is the pin state. When you configure
the port as output port, the pin state is the same as the
corresponding bit. W hen you configure the port as
functional pin, the undefined value will be read.
0x00
4.4.1.63...")
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4.4.1.65 GPC3CONPDN
Base Address: 0x1140_0000
Address = Base Address + 0x0150, Reset Value = 0x0000
Name Bit Type Description Reset Value
GPC3[n] [2n + 1:2n]
n = 0 to 6 RW
0x0 = Output 0
0x1 = Output 1
0x2 = Input
0x3 = Previous state
0x00
4.4.1.66 GPC3PUDPDN
Base Address: 0x1140_0000
Address = Base Address + 0x0154, Reset Value = 0x0000
Name Bit Type Description Reset Value
GPC3[n] [2n + 1:2n]
n = 0 to 6 RW
0x0 =...](http://img.usermanuals.tech/thumb/66/99535/w64_exynos-5-user-manual-1509363421_d-105.png "Page 106
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Exynos 5250_UM 4 Pad Control
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4.4.1.65 GPC3CONPDN
Base Address: 0x1140_0000
Address = Base Address + 0x0150, Reset Value = 0x0000
Name Bit Type Description Reset Value
GPC3[n] [2n + 1:2n]
n = 0 to 6 RW
0x0 = Output 0
0x1 = Output 1
0x2 = Input
0x3 = Previous state
0x00
4.4.1.66 GPC3PUDPDN
Base Address: 0x1140_0000
Address = Base Address + 0x0154, Reset Value = 0x0000
Name Bit Type Description Reset Value
GPC3[n] [2n + 1:2n]
n = 0 to 6 RW
0x0 =...")
Samsung Confidential Exynos 5250_UM 4 Pad Control 4-47 4.4.1.55 GPC2CON Base Address: 0x1140_0000 Address = Base Address + 0x0120, Reset Value = 0x0000_0000 Name Bit Type Description Reset Value GPC2CON[6] [27:24] RW 0x0 = Input 0x1 = Output 0x2 = SD_1_DATA[3] 0x3 to 0xE = Reserved 0xF = EXT_INT10[6] 0x00 GPC2CON[5] [23:20] RW 0x0 = Input 0x1 = Output 0x2 = SD_1_DATA[2] 0x3 to 0xE = Reserved 0xF = EXT_INT10[5] 0x00 GPC2CON[4] [19:16] RW 0x0 = Input 0x1 = Output 0x2 = SD_1_DATA[1] 0x3 to 0xE = Reserved 0xF = EXT_INT10[4] 0x00 GPC2CON[3] [15:12] RW 0x0 = Input 0x1 = Output 0x2 = SD_1_DATA[0] 0x3 to 0xE = Reserved 0xF = EXT_INT10[3] 0x00 GPC2CON[2] [11:8] RW 0x0 = Input 0x1 = Output 0x2 = SD_2_CDn 0x3 = SD_1_nRESET_OUT 0x4 = SD_1_CARD_INT_n 0x5 to 0xE = Reserved 0xF = EXT_INT10[2] 0x00 GPC2CON[1] [7:4] RW 0x0 = Input 0x1 = Output 0x2 = SD_1_CMD 0x3 to 0xE = Reserved 0xF = EXT_INT10[1] 0x00 GPC2CON[0] [3:0] RW 0x0 = Input 0x1 = Output 0x2 = SD_1_CLK 0x3 to 0xE = Reserved 0xF = EXT_INT10[0] 0x00
Samsung Confidential Exynos 5250_UM 4 Pad Control 4-48 4.4.1.56 GPC2DAT Base Address: 0x1140_0000 Address = Base Address + 0x0124, Reset Value = 0x00 Name Bit Type Description Reset Value GPC2DAT[6:0] [6:0] RWX When you configure the port as input port, the corresponding bit is the pin state. When you configure the port as output port, the pin state is the same as the corresponding bit. W hen you configure the port as functional pin, the undefined value will be read. 0x00 4.4.1.57 GPC2PUD Base Address: 0x1140_0000 Address = Base Address + 0x0128, Reset Value = 0x1555 Name Bit Type Description Reset Value GPC2PUD[n] [2n + 1:2n] n = 0 to 6 RW 0x0 = Disables Pull-up/down 0x1 = Enables Pull-down 0x2 = Reserved 0x3 = Enables Pull-up 0x1555 4.4.1.58 GPC2DRV Base Address: 0x1140_0000 Address = Base Address + 0x012C, Reset Value = 0x00_0000 Name Bit Type Description Reset Value GPC2DRV[n] [2n + 1:2n] n = 0 to 6 RW 0x0 = 1x 0x2 = 2x 0x1 = 3x 0x3 = 4x 0x00_0000 [n + 16:16] n = 0 to 6 RW Reserved. Should be zero. 0x00_0000
Samsung Confidential Exynos 5250_UM 4 Pad Control 4-49 4.4.1.59 GPC2CONPDN Base Address: 0x1140_0000 Address = Base Address + 0x0130, Reset Value = 0x0000 Name Bit Type Description Reset Value GPC2[n] [2n + 1:2n] n = 0 to 6 RW 0x0 = Output 0 0x1 = Output 1 0x2 = Input 0x3 = Previous state 0x00 4.4.1.60 GPC2PUDPDN Base Address: 0x1140_0000 Address = Base Address + 0x0134, Reset Value = 0x0000 Name Bit Type Description Reset Value GPC2[n] [2n + 1:2n] n = 0 to 6 RW 0x0 = Disables Pull-up/down 0x1 = Enables Pull-down 0x2 = Reserved 0x3 = Enables Pull-up 0x00
Samsung Confidential Exynos 5250_UM 4 Pad Control 4-50 4.4.1.61 GPC3CON Base Address: 0x1140_0000 Address = Base Address + 0x0140, Reset Value = 0x0000_0000 Name Bit Type Description Reset Value GPC3CON[6] [27:24] RW 0x0 = Input 0x1 = Output 0x2 = SD_2_DATA[3] 0x3 to 0xE = Reserved 0xF = EXT_INT11[6] 0x00 GPC3CON[5] [23:20] RW 0x0 = Input 0x1 = Output 0x2 = SD_2_DATA[2] 0x3 to 0xE = Reserved 0xF = EXT_INT11[5] 0x00 GPC3CON[4] [19:16] RW 0x0 = Input 0x1 = Output 0x2 = SD_2_DATA[1] 0x3 to 0xE = Reserved 0xF = EXT_INT11[4] 0x00 GPC3CON[3] [15:12] RW 0x0 = Input 0x1 = Output 0x2 = SD_2_DATA[0] 0x3 to 0xE = Reserved 0xF = EXT_INT11[3] 0x00 GPC3CON[2] [11:8] RW 0x0 = Input 0x1 = Output 0x2 = SD_2_CDn 0x3 = SD_2_nRESET_OUT 0x4 = SD_2_CARD_INT_n 0x5 to 0xE = Reserved 0xF = EXT_INT11[2] 0x00 GPC3CON[1] [7:4] RW 0x0 = Input 0x1 = Output 0x2 = SD_2_CMD 0x3 to 0xE = Reserved 0xF = EXT_INT11[1] 0x00 GPC3CON[0] [3:0] RW 0x0 = Input 0x1 = Output 0x2 = SD_2_CLK 0x3 to 0xE = Reserved 0xF = EXT_INT11[0] 0x00
Samsung Confidential Exynos 5250_UM 4 Pad Control 4-51 4.4.1.62 GPC3DAT Base Address: 0x1140_0000 Address = Base Address + 0x0144, Reset Value = 0x00 Name Bit Type Description Reset Value GPC3DAT[6:0] [6:0] RWX When you configure the port as input port, the corresponding bit is the pin state. When you configure the port as output port, the pin state is the same as the corresponding bit. W hen you configure the port as functional pin, the undefined value will be read. 0x00 4.4.1.63 GPC3PUD Base Address: 0x1140_0000 Address = Base Address + 0x0148, Reset Value = 0x1555 Name Bit Type Description Reset Value GPC3PUD[n] [2n + 1:2n] n = 0 to 6 RW 0x0 = Disables Pull-up/down 0x1 = Enables Pull-down 0x2 = Reserved 0x3 = Enables Pull-up 0x1555 4.4.1.64 GPC3DRV Base Address: 0x1140_0000 Address = Base Address + 0x014C, Reset Value = 0x00_0000 Name Bit Type Description Reset Value GPC3DRV[n] [2n + 1:2n] n = 0 to 6 RW 0x0 = 1x 0x2 = 2x 0x1 = 3x 0x3 = 4x 0x00_0000 [n + 16:16] n = 0 to 6 RW Reserved. Should be zero. 0x00_0000
Samsung Confidential Exynos 5250_UM 4 Pad Control 4-52 4.4.1.65 GPC3CONPDN Base Address: 0x1140_0000 Address = Base Address + 0x0150, Reset Value = 0x0000 Name Bit Type Description Reset Value GPC3[n] [2n + 1:2n] n = 0 to 6 RW 0x0 = Output 0 0x1 = Output 1 0x2 = Input 0x3 = Previous state 0x00 4.4.1.66 GPC3PUDPDN Base Address: 0x1140_0000 Address = Base Address + 0x0154, Reset Value = 0x0000 Name Bit Type Description Reset Value GPC3[n] [2n + 1:2n] n = 0 to 6 RW 0x0 = Disables Pull-up/down 0x1 = Enables Pull-down 0x2 = Reserved 0x3 = Enables Pull-up 0x00
Samsung Confidential Exynos 5250_UM 4 Pad Control 4-53 4.4.1.67 GPD0CON Base Address: 0x1140_0000 Address = Base Address + 0x0160, Reset Value = 0x0000_0000 Name Bit Type Description Reset Value GPD0CON[3] [15:12] RW 0x0 = Input 0x1 = Output 0x2 = UART_1_RTSn 0x3 to 0xE = Reserved 0xF = EXT_INT12[3] 0x00 GPD0CON[2] [11:8] RW 0x0 = Input 0x1 = Output 0x2 = UART_1_CTSn 0x3 to 0xE = Reserved 0xF = EXT_INT12[2] 0x00 GPD0CON[1] [7:4] RW 0x0 = Input 0x1 = Output 0x2 = UART_1_TXD 0x3 to 0xE = Reserved 0xF = EXT_INT12[1] 0x00 GPD0CON[0] [3:0] RW 0x0 = Input 0x1 = Output 0x2 = UART_1_RXD 0x3 to 0xE = Reserved 0xF = EXT_INT12[0] 0x00
Samsung Confidential Exynos 5250_UM 4 Pad Control 4-54 4.4.1.68 GPD0DAT Base Address: 0x1140_0000 Address = Base Address + 0x0164, Reset Value = 0x00 Name Bit Type Description Reset Value GPD0DAT[3:0] [3:0] RWX When you configure the port as input port, the corresponding bit is the pin state. When you configure the port as output port, the pin state is the same as the corresponding bit. W hen you configure the port as functional pin, the undefined value will be read. 0x00 4.4.1.69 GPD0PUD Base Address: 0x1140_0000 Address = Base Address + 0x0168, Reset Value = 0X0055 Name Bit Type Description Reset Value GPD0PUD[n] [2n + 1:2n] n = 0 to 3 RW 0x0 = Disables Pull-up/down 0x1 = Enables Pull-down 0x2 = Reserved 0x3 = Enables Pull-up 0x0055 4.4.1.70 GPD0DRV Base Address: 0x1140_0000 Address = Base Address + 0x016C, Reset Value = 0x00_0000 Name Bit Type Description Reset Value GPD0DRV[n] [2n + 1:2n] n = 0 to 3 RW 0x0 = 1x 0x2 = 2x 0x1 = 3x 0x3 = 4x 0x00_0000 [n + 16:16] n = 0 to 3 RW Reserved. Should be zero. 0x00_0000
Samsung Confidential Exynos 5250_UM 4 Pad Control 4-55 4.4.1.71 GPD0CONPDN Base Address: 0x1140_0000 Address = Base Address + 0x170, Reset Value = 0x0000 Name Bit Type Description Reset Value GPD0[n] [2n + 1:2n] n = 0 to 3 RW 0x0 = Output 0 0x1 = Output 1 0x2 = Input 0x3 = Previous state 0x00 4.4.1.72 GPD0PUDPDN Base Address: 0x1140_0000 Address = Base Address + 0x0174, Reset Value = 0x0000 Name Bit Type Description Reset Value GPD0[n] [2n + 1:2n] n = 0 to 3 RW 0x0 = Disables Pull-up/down 0x1 = Enables Pull-down 0x2 = Reserved 0x3 = Enables Pull-up 0x00
Samsung Confidential Exynos 5250_UM 4 Pad Control 4-56 4.4.1.73 GPD1CON Base Address: 0x1140_0000 Address = Base Address + 0x0180, Reset Value = 0x0000_0000 Name Bit Type Description Reset Value GPD1CON[7] [31:28] RW 0x0 = Input 0x1 = Output 0x2 = Reserved 0x3 = Reserved 0x4 = HSI_CAREADY 0x5 to 0xE = Reserved 0xF = EXT_INT13[7] 0x00 GPD1CON[6] [27:24] RW 0x0 = Input 0x1 = Output 0x2 = Reserved 0x3 = Reserved 0x4 = HSI_ACFLAG 0x5 to 0xE = Reserved 0xF = EXT_INT13[6] 0x00 GPD1CON[5] [23:20] RW 0x0 = Input 0x1 = Output 0x2 = Reserved 0x3 = Reserved 0x4 = HSI_ACDATA 0x5 to 0xE = Reserved 0xF = EXT_INT13[5] 0x00 GPD1CON[4] [19:16] RW 0x0 = Input 0x1 = Output 0x2 = Reserved 0x3 = Reserved 0x4 = HSI_ACW AKE 0x5 to 0xE = Reserved 0xF = EXT_INT13[4] 0x00 GPD1CON[3] [15:12] RW 0x0 = Input 0x1 = Output 0x2 = Reserved 0x3 = Reserved 0x4 = HSI_ACREADY 0x5 to 0xE = Reserved 0xF = EXT_INT13[3] 0x00 GPD1CON[2] [11:8] RW 0x0 = Input 0x1 = Output 0x2 = Reserved 0x3 = Reserved 0x4 = HSI_CAFLAG 0x5 to 0xE = Reserved 0xF = EXT_INT13[2] 0x00 GPD1CON[1] [7:4] RW 0x0 = Input 0x1 = Output 0x00