DLPS023C January 2012 – August 2015 DLPC300
PRODUCTION DATA.
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PIN | I/O POWER |
I/O TYPE |
CLK SYSTEM | DESCRIPTION | ||||
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NAME | NO. | |||||||
SIGNALS | ||||||||
RESET | J14 | VCC18 | I1 | Async |
DLPC300 power-on reset. Self configuration starts when a low-to-high transition is detected on this pin. All device power and clocks must be stable and within recommended operating conditions before this reset is deasserted. Note that the following 7 signals are high-impedance while RESET is asserted: DMD_PWR_EN, LEDDVR_ON, LED_SEL_0, LED_SEL_1, SPICLK, SPIDOUT, and SPICS0 External pullups/pulldowns should be added as needed to these signals to avoid floating inputs where these signals are driven. |
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PARK | B8 | VCC_ INTF | I3 | Async | DMD park control (active-low). Is set high to enable normal operation. PARK must be set high within 500 µs after releasing RESET. PARK must be set low a minimum of 500 µs before any power is to be removed from the DLPC300 or DLP3000. See System Power-Up/Power-Down Sequence for more details. | |||
PLL_REFCLK_I | K15 | VCC18 (filter) | I4 | N/A | Reference clock crystal input. If an external oscillator is used in place of a crystal, then this pin should be used as the oscillator input. | |||
PLL_REFCLK_O | J15 | VCC18 (filter) | O14 | N/A | Reference clock crystal return. If an external oscillator is used in place of a crystal, then this pin should be left unconnected (floating). | |||
FLASH INTERFACE(1) | ||||||||
SPICLK | A4 | VCC_FLSH | O24 | N/A | SPI master clock output | |||
SPIDIN | B4 | VCC_FLSH | I2 | SPICLK | Serial data input from the external SPI slave FLASH device | |||
SPICS0 | A5 | VCC_FLSH | O24 | SPICLK | SPI master chip select 0 output. Active-low | |||
RESERVED | C6 | VCC_FLSH | O24 | SPICLK | Not used. Reserved for future use. Should be left unconnected | |||
SPIDOUT | C5 | VCC_FLSH | O24 | SPICLK | Serial data output to the external SPI slave flash device. This pin sends address and control information as well as data when programming. | |||
CONTROL | ||||||||
SCL | A10 | VCC_ INTF | B38 | N/A |
I2C clock. Bidirectional, open-drain signal. An external pullup is required. No I2C activity is permitted for a minimum of 100 ms after PARK and RESET are set high. |
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SDA | C10 | VCC_ INTF | B38 | SCL |
I2C data. Bidirectional, open-drain signal. An external pullup is required. |
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INIT_DONE | C9 | VCC_ INTF | B34 | Async |
Primary usage is to indicate when auto-initialization is complete, which is when INIT_DONE transitions high then low following release of RESET. INIT_DONE also helps flag a detected error condition in the form of a logic-high, pulsed interrupt flag. |
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PARALLEL RGB INTERFACE | PARALLEL RGB MODE | BT.656 I/F MODE | ||||||
PCLK | D13 | VCC_ INTF | I3 | N/A | Pixel clock(5) | Pixel clock(5) | ||
PDM | H15 | VCC_ INTF | B34 | ASYNC | Not used, pulldown through an external resistor. | Not used, pulldown through an external resistor. | ||
VSYNC | H14 | VCC_ INTF | I3 | ASYNC | VSync(4) | Unused(3) | ||
HSYNC | H13 | VCC_ INTF | I3 | PCLK | HSync(4) | Unused(3) | ||
DATEN | G15 | VCC_ INTF | I3 | PCLK | Data valid(5) | Unused(3) | ||
PDATA[0] | G14 | VCC_ INTF | I3 | PCLK | Data0(2) | Data0(2) | ||
PDATA[1] | G13 | VCC_ INTF | I3 | PCLK | Data1(2) | Data1(2) | ||
PDATA[2] | F15 | VCC_ INTF | I3 | PCLK | Data2(2) | Data2(2) | ||
PDATA[3] | F14 | VCC_ INTF | I3 | PCLK | Data3(2) | Data3(2) | ||
PDATA[4] | F13 | VCC_ INTF | I3 | PCLK | Data4(2) | Data4(2) | ||
PDATA[5] | E15 | VCC_ INTF | I3 | PCLK | Data5(2) | Data5(2) | ||
PDATA[6] | E14 | VCC_ INTF | I3 | PCLK | Data6(2) | Data6(2) | ||
PDATA[7] | E13 | VCC_ INTF | I3 | PCLK | Data7(2) | Data7(2) | ||
PDATA[8] | D15 | VCC_ INTF | I3 | PCLK | Data8(2) | Unused(3) | ||
PDATA[9] | D14 | VCC_ INTF | I3 | PCLK | Data9(2) | Unused(3) | ||
PDATA[10] | C15 | VCC_ INTF | I3 | PCLK | Data10(2) | Unused(3) | ||
PDATA[11] | C14 | VCC_ INTF | I3 | PCLK | Data11(2) | Unused(3) | ||
PDATA[12] | C13 | VCC_ INTF | I3 | PCLK | Data12(2) | Unused(3) | ||
PDATA[13] | B15 | VCC_ INTF | I3 | PCLK | Data13(2) | Unused(3) | ||
PDATA[14] | B14 | VCC_ INTF | I3 | PCLK | Data14(2) | Unused(3) | ||
PDATA[15] | A15 | VCC_ INTF | I3 | PCLK | Data15(2) | Unused(3) | ||
PDATA[16] | A14 | VCC_ INTF | I3 | PCLK | Data16(2) | Unused(3) | ||
PDATA[17] | B13 | VCC_ INTF | I3 | PCLK | Data17(2) | Unused(3) | ||
PDATA[18] | A13 | VCC_ INTF | I3 | PCLK | Data18(2) | Unused(3) | ||
PDATA[19] | C12 | VCC_ INTF | I3 | PCLK | Data19(2) | Unused(3) | ||
PDATA[20] | B12 | VCC_ INTF | I3 | PCLK | Data20(2) | Unused(3) | ||
PDATA[21] | A12 | VCC_ INTF | I3 | PCLK | Data21(2) | Unused(3) | ||
PDATA[22] | C11 | VCC_ INTF | I3 | PCLK | Data22(2) | Unused(3) | ||
PDATA[23] | B11 | VCC_ INTF | I3 | PCLK | Data23(2) | Unused(3) | ||
DMD INTERFACE | ||||||||
DMD_D0 | M15 | VCC18 | O58 | DMD_DCLK |
DMD data pins. DMD data pins are double data rate (DDR) signals that are clocked on both edges of DMD_DCLK. All 15 DMD data signals are use to interface to the DLP3000. |
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DMD_D1 | N14 | |||||||
DMD_D2 | M14 | |||||||
DMD_D3 | N15 | |||||||
DMD_D4 | P13 | |||||||
DMD_D5 | P14 | |||||||
DMD_D6 | P15 | |||||||
DMD_D7 | R15 | |||||||
DMD_D8 | R12 | |||||||
DMD_D9 | N11 | |||||||
DMD_D10 | P11 | |||||||
DMD_D11 | R11 | |||||||
DMD_D12 | N10 | |||||||
DMD_D13 | P10 | |||||||
DMD_D14 | R10 | |||||||
DMD_DCLK | N13 | VCC18 | O58 | N/A | DMD data clock (DDR) | |||
DMD_LOADB | R13 | VCC18 | O58 | DMD_DCLK | DMD data load signal (active-low). This signal requires an external pullup to VCC18. | |||
DMD_SCTRL | R14 | VCC18 | O58 | DMD_DCLK | DMD data serial control signal | |||
DMD_TRC | P12 | VCC18 | O58 | DMD_DCLK | DMD data toggle rate control | |||
DMD_DRC_BUS | L13 | VCC18 | O58 | DMD_SAC_CLK | DMD reset control bus data | |||
DMD_DRC_STRB | K13 | VCC18 | O58 | DMD_SAC_CLK | DMD reset control bus strobe | |||
DMD_DRC_OE | M13 | VCC18 | O58 | Async | DMD reset control enable (active-low). This signal requires an external pullup to VCC18. | |||
DMD_SAC_BUS | L15 | VCC18 | O58 | DMD_SAC_CLK | DMD stepped-address control bus data | |||
DMD_SAC_CLK | L14 | VCC18 | O58 | N/A | DMD stepped-address control bus clock | |||
DMD_PWR_EN | K14 | VCC18 | O14 | Async | DMD power regulator enable (active-high). This is an active-high output that should be used to control DMD VOFFSET, VBIAS, and VRESET voltages. DMD_PWR_EN is driven high as a result of the PARK input signal being set high. However, DMD_PWR_EN is held high for 500 µs after the PARK input signal is set low before it is driven low. A weak external pulldown resistor is recommended to keep this signal at a known state during power-up reset. | |||
SDRAM INTERFACE | ||||||||
MEM_CLK_P | D1 | VCC18 | O74 | N/A | mDDR memory, differential memory clock | |||
MEM_CLK_N | E1 | VCC18 | O74 | N/A | ||||
MEM_A0 | P1 | VCC18 | O64 | MEM_CLK | mDDR memory, multiplexed row and column address | |||
MEM_A1 | R3 | |||||||
MEM_A2 | R1 | |||||||
MEM_A3 | R2 | |||||||
MEM_A4 | A1 | |||||||
MEM_A5 | B1 | |||||||
MEM_A6 | A2 | |||||||
MEM_A7 | B2 | |||||||
MEM_A8 | D2 | |||||||
MEM_A9 | A3 | |||||||
MEM_A10 | P2 | |||||||
MEM_A11 | B3 | |||||||
MEM_A12 | D3 | |||||||
MEM_BA0 | M3 | VCC18 | O64 | MEM_CLK | mDDR memory, bank select | |||
MEM_BA1 | P3 | |||||||
MEM_RAS | P4 | VCC18 | O64 | MEM_CLK | mDDR memory, row address strobe (active-low) | |||
MEM_CAS | R4 | VCC18 | O64 | MEM_CLK | mDDR memory, column address strobe (active-low) | |||
MEM_WE | R5 | VCC18 | O64 | MEM_CLK | mDDR memory, write enable (active-low) | |||
MEM_CS | J3 | VCC18 | O64 | MEM_CLK | mDDR memory, chip select (active-low) | |||
MEM_CKE | C1 | VCC18 | O64 | MEM_CLK | mDDR memory, clock enable (active-high) | |||
MEM_LDQS | J2 | VCC18 | B64 | N/A | mDDR memory, lower byte, R/W data strobe | |||
MEM_LDM | J1 | VCC18 | O64 | MEM_LDQS | mDDR memory, lower byte, write data mask | |||
MEM_UDQS | G1 | VCC18 | B64 | N/A | mDDR memory, upper byte, R/W data strobe | |||
MEM_UDM | H1 | VCC18 | O64 | MEM_UDQS | mDDR memory, upper byte, write data mask | |||
MEM_DQ0 | N1 | VCC18 | B64 | MEM_LDQS | mDDR memory, lower byte, bidirectional R/W data | |||
MEM_DQ1 | M2 | |||||||
MEM_DQ2 | M1 | |||||||
MEM_DQ3 | L3 | |||||||
MEM_DQ4 | L2 | |||||||
MEM_DQ5 | K2 | |||||||
MEM_DQ6 | L1 | |||||||
MEM_DQ7 | K1 | |||||||
MEM_DQ8 | H2 | VCC18 | B64 | MEM_UDQS | mDDR memory, upper byte, bidirectional R/W data | |||
MEM_DQ9 | G2 | |||||||
MEM_DQ10 | H3 | |||||||
MEM_DQ11 | F3 | |||||||
MEM_DQ12 | F1 | |||||||
MEM_DQ13 | E2 | |||||||
MEM_DQ14 | F2 | |||||||
MEM_DQ15 | E3 | |||||||
LED DRIVER INTERFACE | ||||||||
RPWM | N8 | VCC18 | O14 | Async | Red LED PWM signal used to control the LED current(6). | |||
GPWM | P9 | VCC18 | O14 | Async | Green LED PWM signal used to control the LED current(6). | |||
BPWM | R8 | VCC18 | O14 | Async | Blue LED PWM signal used to control the LED current(6). | |||
LED_SEL_0 | R6 | VCC18 | O14 | Async |
LED enable SELECT. Controlled by DMD sequence timing. |
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LED_SEL(1:0) | Selected LED | |||||||
00 | None | |||||||
01 | Red | |||||||
LED_SEL_1 | N6 | 10 | Green | |||||
11 | Blue | |||||||
A decode circuit is required to decode the selected LED enable. | ||||||||
LEDDRV_ON | P7 | VCC18 | O14 | Async | LED driver master enable. Active-high output control to external LED driver logic. This signal is driven high 100 ms after LED_ENABLE is driven high. Driven low immediately when either LED_ENABLE or PARK is driven low. | |||
LED_ENABLE | A11 | VCC_ INTF | I3 | Async | LED enable (active-high input). A logic low on this signal forces LEDDRV_ON low and LED_SEL(1:0) = 00b. These signals are enabled 100 ms after LED_ENABLE transitions from low to high. | |||
RED_EN | B5 | VCC18 | B18 | Async | When not used with an optional FPGA, this signal should be connected to the RED LED enable circuit. When RED_EN is high, the red LED is enabled. When RED_EN is low, the red LED is disabled. When used with the optional FPGA, this signal should be pulled down to ground through an external resistor. This signal is configured as output and driven low when the DLPR300 serial flash PROM is loaded by the DLPC300, but the signal is not enabled. To enable this output, a write to I2C LED Enable and Buffer Control register. | |||
GREEN_EN | A7 | When not used with an optional FPGA, this signal should be connected to the green LED enable circuit. When GREEN_EN is high, the green LED is enabled. When GREEN_EN is low, the green LED is disabled. When used with the optional FPGA, this signal should be pulled down to ground through an external resistor. This signal is configured as output and driven low when the DLPR300 serial flash PROM is loaded by the DLPC300, but the signal is not enabled. To enable this output, a write to I2C LED Enable and Buffer Control register. | ||||||
BLUE_EN | C8 | When not used with an optional FPGA, this signal should be connected to the blue LED enable circuit. When BLUE_EN is high, the blue LED is enabled. When BLUE_EN is low, the blue LED is disabled. When used with the optional FPGA, this signal should be pulled down to ground through an external resistor. This signal is configured as output and driven low when the DLPR300 serial flash PROM is loaded by the DLPC300, but the signal is not enabled. To enable this output, a write to I2C LED Enable and Buffer Control register. | ||||||
WHITE POINT CORRECTION LIGHT SENSOR I/F | ||||||||
CMP_OUT | A6 | VCC18 | I1 | Async | Successive approximation ADC comparator output (DLPC300 input). Assumes a successive approximation ADC is implemented with a light sensor and/or thermocouple feeding one input of an external comparator and the other side of the comparator driven from the DLPC300 CMP_PWM pin. If not used, this signal should be pulled down to ground. | |||
CMP_PWM | B7 | VCC18 | O14 | Async | Successive approximation comparator pulse-duration modulation input. Supplies a PWM signal to drive the successive approximation ADC comparator used in light-to-voltage light sensor applications. Should be left unconnected if this function is not used. | |||
CMP_PWR | P5 | VCC18 | B14 | Async | Power control signal for the WPC light sensor and other analog support circuits using the DLPC300 ADC. Alternatively, it provides general-purpose I/O to the WPC microprocessor internal to the DLPC300. Should be left unconnected if not used. | |||
TRIGGER CONTROL | ||||||||
OUTPUT_TRIGGER | N9 | VCC18 | B18 | Async | Trigger output. Indicates that a pattern or image is displayed on the screen and is ready to be captured. With an optional FPGA, this signal is connected to the FPGA trigger input. This signal is configured as output and driven low when the DLPR300 serial flash PROM is loaded by the DLPC300, but the signal is not enabled. To enable this output, a write to I2C LED Enable and Buffer Control register. If not used, this signal should be pulled down to ground through an external resistor. | |||
PATTERN CONTROL | ||||||||
PATTERN_INVERT | C7 | VCC18 | B18 | Async | Inverts the current 1-bit pattern held in the DLPC300 buffer. When used with an optional FPGA, this signal should be connected to DMC_TRC of the FPGA. This signal is configured as output and driven low when the DLPR300 serial flash PROM is loaded by the DLPC300, but the signal is not enabled. To enable this output, a write to I2C LED Enable and Buffer Control register. If not used, this signal should be pulled down to ground through an external resistor. | |||
OPTIONAL FPGA BUFFER MANAGEMENT INTERFACES | ||||||||
RD_BUF0 | B6 | VCC18 | B18 | Async | When not used with an optional FPGA, this signal should be pulled down to ground through an external resistor. When used with an optional FPGA, this signal should be connected to RD_PTR_SDC[0] of the FPGA. RD_BUFF1 and RD_BUFF0 indicate to the FPGA one of the four buffers currently in use. This signal is configured as output and driven low when the DLPR300 serial flash PROM is loaded by the DLPC300, but the signal is not enabled. To enable this output, a write to I2C LED Enable and Buffer Control register. | |||
RD_BUF1/I2C_ADDR_SEL | R9 | This signal is sampled when RESET is deasserted to choose between two predefined 7-bit I2C slave addresses. If I2C_ADDR_SEL signal is pulled-low, then the DLPC300's I2C slave address is 1Bh. If I2C_ADDR_SEL signal is pulled-high, then the DLPC300's I2C slave address is 1Dh. When used with an optional FPGA, this signal should be connected to RD_PTR_SDC[1] of the FPGA. RD_BUFF1 and RD_BUFF0 indicate to the FPGA one of the four buffers currently in use. This signal is set to input upon deassertion of RESET and configured as output and driven low when the DLPR300 serial flash PROM is loaded by the DLPC300, but the signal is not enabled. To enable this output, a write to I2C LED Enable and Buffer Control register. | ||||||
BUFFER_SWAP | A8 | When not used with an optional FPGA, this signal should be pulled down to ground through an external resistor. When used with an optional FPGA, this signal should be connected to BUFF_SWAP_SEQ of the FPGA. BUFFER_SWAP indicates to the FPGA when to advance the buffer. This signal is configured as output and driven low when the DLPR300 serial flash PROM is loaded by the DLPC300, but the signal is not enabled. To enable this output, a write to I2C LED Enable and Buffer Control register. | ||||||
CONTROLLER MANUFACTURER TEST SUPPORT | ||||||||
TEST_EN | A9 | VCC_INTF | I3 | N/A | Reserved for test. Should be connected directly to ground on the PCB for normal operation. Includes weak internal pulldown | |||
BOARD LEVEL TEST AND DEBUG | ||||||||
JTAGTDI | P6 | VCC18 | I1 | JTAGTCK | JTAG, serial data in. Includes weak internal pullup | |||
JTAGTCK | N5 | VCC18 | I1 | N/A | JTAG, serial data clock. Includes weak internal pullup | |||
JTAGTMS | N7 | VCC18 | I1 | JTAGTCK | JTAG, test mode select. Includes weak internal pullup | |||
JTAGTDO | R7 | VCC18 | I14 | JTAGTCK | JTAG, serial data out | |||
JTAGRST | P8 | VCC18 | I1 | ASYNC | JTAG, RESET (active-low). Includes weak internal pullup. This signal must be tied to ground, through an external 15-kΩ or less resistor for normal operation. |
POWER GROUP | PIN NUMBERS | DESCRIPTION |
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VDD10 | D5, D9, F4, F12, J4, J12, M6, M8, M11 | 1-V core logic power supply (9) |
VDD_PLL | H12 | 1-V power supply for the internal PLL (1) |
VCC18 | C4, D8, E4, G3, K3, K12, L4, M5, M9, M12, N4, N12 | 1.8-V power supply for all I/O other than the host/ video interface and the SPI flash buses (12) |
VCC_FLSH | D6 | 1.8- , 2.5- or 3.3-V power supply for SPI flash bus I/O (1) |
VCC_INTF | D11, E12 | 1.8- , 2.5- or 3.3-V power supply for all I/Os on the host/video interface (includes I2C, PDATA, video syncs, PARK and LED_ENABLE pins) (2) |
GND | D4, D7, D10, D12, G4, G12, H4, K4, L12, M4, M7, M10 | Common ground (12) |
RTN_PLL | J13 | Analog ground return for the PLL (This should be connected to the common ground GND through a ferrite (1) |
Reserved | B9, C2, C3, C6, N2, N3 | |
Reserved | B10 | This pin must be pulled up to VCC_INTF |