ZHCSD20H October 2014 – June 2024 DLPC900
PRODUCTION DATA
PIN | I/O POWER | I/O TYPE(1) | CLK SYSTEM | DESCRIPTION(2) | |
---|---|---|---|---|---|
NAME | NUMBER | ||||
POSENSE | P22 | VDD33 | I4 H |
Async | Power-on sense is an active high signal with hysteresis, generated from an external voltage monitor circuit. This signal is driven active high when all the controller supply voltages have reached 90% of their specified minimum voltage. This signal is driven inactive low after the falling edge of PWRGOOD as shown in Figure 5-4 and Figure 5-5. Refer to Section 5.7 for more details. |
PWRGOOD | T26 | VDD33 | I4 H |
Async | Power Good is an active high signal with hysteresis that is provided from an external voltage monitor circuit. A high value indicates all power is within operating voltage specifications and the system is safe to exit its RESET state. Refer to Section 5.7 for more details. |
EXT_ARSTZ | T24 | VDD33 | O2 | Async | General purpose active low reset output signal. This output is driven low immediately after POSENSE is externally driven low, placing the system in RESET and remains low while POSENSE remains low. EXT_ARSTZ will continue to be held low after POSENSE is driven high and released by the controller firmware. EXT_ARSTZ is also driven low approximately 5µs after the detection of a PWRGOOD or any internally generated reset. In all cases, it will remain active for a minimum of 2ms. |
CTRL_ARSTZ | T25 | VDD33 | O2 | Async | Controller active low reset output signal. This output is driven low immediately after POSENSE is externally driven low and remains low while POSENSE remains low. CTRL_ARSTZ will continue to be held low after POSENSE is driven high and released by the controller firmware. CTRL_ARSTZ is also optionally asserted low approximately 5µs after the detection of a PWRGOOD or any internally generated reset. In all cases it will remain active for a minimum of 2ms. |
AFE_ARSTZ | AC12 | VDD33 | O2 | Async | Analog Front End active low reset output signal. This output is driven low immediately upon asserting power-up reset (POSENSE) low and remains low while POSENSE remains low. AFE_ARSTZ continues to be held low after the release of power-up reset (that is, POSENSE set high) until released by software. AFE_ARSTZ is also asserted low approximately 5µs after the detection of a PWRGOOD or any internally generated reset. In all cases, it remains active for a minimum of 2ms after the reset condition is released by software. Note that the ASIC contains a software register that can be used to independently drive this output. This pin requires an external 4.7kΩ pullup resistor. |
AFE_IRQ | AB13 | VDD33 | I4 | Async | Analog Front End interrupt active high signal. This signal includes an internal pulldown and uses hysteresis. |
PIN | I/O POWER | I/O TYPE(1) | CLK SYSTEM | DESCRIPTION(2) | |
---|---|---|---|---|---|
NAME | NUMBER | ||||
DADOEZ | AE7 | VDD33 | O5 | Async | DMD output-enable (active low). This signal does not apply to the secondary controller in a two-controller system configuration. On the secondary controller, this pin is reserved and must be left unconnected. |
DADADDR_3 DADADDR_2 DADADDR_1 DADADDR_0 |
AD6 AE5 AF4 AB8 |
VDD33 | O5 | Async | DMD address. This signal does not apply to the secondary controller in a two-controller system configuration. On the secondary controller, this pin is reserved and must be left unconnected. |
DADMODE_1 DADMODE_0 |
AD7 AE6 |
VDD33 | O5 | Async | DMD mode. This signal does not apply to the secondary controller in a two-controller system configuration. On the secondary controller, this pin is reserved and must be left unconnected. |
DADSEL_1 DADSEL_0 |
AE4 AC7 |
VDD33 | O5 | Async | DMD select. This signal does not apply to the secondary controller in a two-controller system configuration. On the secondary controller, this pin is reserved and must be left unconnected. |
DADSTRB | AF5 | VDD33 | O5 | Async | DMD strobe. This signal does not apply to the secondary controller in a two-controller system configuration. On the secondary controller, this pin is reserved and must be left unconnected. |
DAD_INTZ | AC8 | VDD33 | I4 H |
Async | DMD interrupt (active low). Requires an external 1kΩ pullup resistor |
PIN(3)(4) | I/O POWER | I/O TYPE(1) | CLK SYSTEM | DESCRIPTION(2) | |
---|---|---|---|---|---|
NAME | NUMBER | ||||
DCKA_P DCKA_N | V4 V3 | VDD18 | O7 | DCKA_P DCKA_N | DMD, LVDS interface channel A, differential clock |
SCA_P SCA_N | V2 V1 | VDD18 | O7 | DCKA_P DCKA_N | DMD, LVDS interface channel A, differential serial control |
DDA_P_15 DDA_N_15 DDA_P_14 DDA_N_14 DDA_P_13 DDA_N_13 DDA_P_12 DDA_N_12 DDA_P_11 DDA_N_11 DDA_P_10 DDA_N_10 DDA_P_9 DDA_N_9 DDA_P_8 DDA_N_8 | P4 P3 P2 P1 R4 R3 R2 R1 T4 T3 T2 T1 U4 U3 U2 U1 | VDD18 | O7 | DCKA_P DCKA_N | DMD, LVDS interface channel A, differential serial data |
DDA_P_7 DDA_N_7 DDA_P_6 DDA_N_6 DDA_P_5 DDA_N_5 DDA_P_4 DDA_N_4 DDA_P_3 DDA_N_3 DDA_P_2 DDA_N_2 DDA_P_1 DDA_N_1 DDA_P_0 DDA_N_0 | W4 W3 W2 W1 Y2 Y1 Y4 Y3 AA2 AA1 AA4 AA3 AB2 AB1 AC2 AC1 | ||||
DCKB_P DCKB_N | J3 J4 | VDD18 | O7 | DCKB_P DCKB_N | DMD, LVDS interface channel B, differential clock |
SCB_P SCB_N | J1 J2 | VDD18 | O7 | DCKB_P DCKB_N | DMD, LVDS interface channel B, differential serial control |
DDB_P_15 DDB_N_15 DDB_P_14 DDB_N_14 DDB_P_13 DDB_N_13 DDB_P_12 DDB_N_12 DDB_P_11 DDB_N_11 DDB_P_10 DDB_N_10 DDB_P_9 DDB_N_9 DDB_P_8 DDB_N_8 | N1 N2 N3 N4 M2 M1 M3 M4 L1 L2 L3 L4 K1 K2 K3 K4 | VDD18 | O7 | DCKB_P DCKB_N | DMD, LVDS interface channel B, differential serial data |
DDB_P_7 DDB_N_7 DDB_P_6 DDB_N_6 DDB_P_5 DDB_N_5 DDB_P_4 DDB_N_4 DDB_P_3 DDB_N_3 DDB_P_2 DDB_N_2 DDB_P_1 DDB_N_1 DDB_P_0 DDB_N_0 | H1 H2 H3 H4 G1 G2 G3 G4 F1 F2 F3 F4 E1 E2 D1 D2 |
PIN(3) | I/O POWER | I/O TYPE(1) | CLK SYSTEM | DESCRIPTION | |||
---|---|---|---|---|---|---|---|
NAME | NUMBER | CHIP SELECT 0 (ADDITIONAL FLASH) | CHIP SELECT 1 (BOOT FLASH ONLY) (2)(3) | CHIP SELECT 2 (ADDITIONAL FLASH) | |||
PM_CSZ_0 (4) | D13 | VDD33 | O5 | Async | Chip select (active low) | N/A | N/A |
PM_CSZ_1 (4) | E12 | VDD33 | O5 | Async | N/A | Boot flash chip select (active low) | N/A |
PM_CSZ_2 (4) | A13 | VDD33 | O5 | Async | N/A | N/A | Chip select (active low) |
PM_ADDR_22 (5) | A12 | VDD33 | B5 | Async | Address bit (MSB) | Address bit (MSB) | Address bit (MSB) |
PM_ADDR_21 (5) | E11 | VDD33 | B5 | Async | Address bit | Address bit | Address bit |
PM_ADDR_20 | D12 | VDD33 | O5 | Async | Address bit | Address bit | Address bit |
PM_ADDR_19 | C12 | VDD33 | O5 | Async | Address bit | Address bit | Address bit |
PM_ADDR_18 | B11 | VDD33 | O5 | Async | Address bit | Address bit | Address bit |
PM_ADDR_17 | A11 | VDD33 | O5 | Async | Address bit | Address bit | Address bit |
PM_ADDR_16 | D11 | VDD33 | O5 | Async | Address bit | Address bit | Address bit |
PM_ADDR_15 | C11 | VDD33 | O5 | Async | Address bit | Address bit | Address bit |
PM_ADDR_14 | E10 | VDD33 | O5 | Async | Address bit | Address bit | Address bit |
PM_ADDR_13 | D10 | VDD33 | O5 | Async | Address bit | Address bit | Address bit |
PM_ADDR_12 | C10 | VDD33 | O5 | Async | Address bit | Address bit | Address bit |
PM_ADDR_11 | B9 | VDD33 | O5 | Async | Address bit | Address bit | Address bit |
PM_ADDR_10 | A9 | VDD33 | O5 | Async | Address bit | Address bit | Address bit |
PM_ADDR_9 | E9 | VDD33 | O5 | Async | Address bit | Address bit | Address bit |
PM_ADDR_8 | D9 | VDD33 | O5 | Async | Address bit | Address bit | Address bit |
PM_ADDR_7 | C9 | VDD33 | O5 | Async | Address bit | Address bit | Address bit |
PM_ADDR_6 | B8 | VDD33 | O5 | Async | Address bit | Address bit | Address bit |
PM_ADDR_5 | A8 | VDD33 | O5 | Async | Address bit | Address bit | Address bit |
PM_ADDR_4 | D8 | VDD33 | O5 | Async | Address bit | Address bit | Address bit |
PM_ADDR_3 | C8 | VDD33 | O5 | Async | Address bit | Address bit | Address bit |
PM_ADDR_2 | B7 | VDD33 | O5 | Async | Address bit | Address bit | Address bit |
PM_ADDR_1 | A7 | VDD33 | O5 | Async | Address bit | Address bit | Address bit |
PM_ADDR_0 | C7 | VDD33 | O5 | Async | Address bit (LSB) | Address bit (LSB) | Address bit (LSB) |
PM_WEZ | B12 | VDD33 | O5 | Async | Write-enable (active low) | Write-enable (active low) | Write-enable (active low) |
PM_OEZ | C13 | VDD33 | O5 | Async | Output-enable (active low) | Output-enable (active low) | Output-enable (active low) |
PM_BLSZ_1 | B6 | VDD33 | O5 | Async | UpperByte(15:8) enable (active low) | N/A | UpperByte(15:8) Enable (active low) |
PM_BLSZ_0 | A6 | VDD33 | O5 | Async | LowerByte(7:0) enable (active low) | N/A | LowerByte(7:0) Enable (active low) |
PM_DATA_15 | C17 | VDD33 | B5 | Async | Data bit (15) | Data bit (15) | Data bit (15) |
PM_DATA_14 | B16 | VDD33 | B5 | Async | Data bit (14) | Data bit (14) | Data bit (14) |
PM_DATA_13 | A16 | VDD33 | B5 | Async | Data bit (13) | Data bit (13) | Data bit (13) |
PM_DATA_12 | A15 | VDD33 | B5 | Async | Data bit (12) | Data bit (12) | Data bit (12) |
PM_DATA_11 | B15 | VDD33 | B5 | Async | Data bit (11) | Data bit (11) | Data bit (11) |
PM_DATA_10 | D16 | VDD33 | B5 | Async | Data bit (10) | Data bit (10) | Data bit (10) |
PM_DATA_9 | C16 | VDD33 | B5 | Async | Data bit (9) | Data bit (9) | Data bit (9) |
PM_DATA_8 | E14 | VDD33 | B5 | Async | Data bit (8) | Data bit (8) | Data bit (8) |
PM_DATA_7 | D15 | VDD33 | B5 | Async | Data bit (7) | Data bit (7) | Data bit (7) |
PM_DATA_6 | C15 | VDD33 | B5 | Async | Data bit (6) | Data bit (6) | Data bit (6) |
PM_DATA_5 | B14 | VDD33 | B5 | Async | Data bit (5) | Data bit (5) | Data bit (5) |
PM_DATA_4 | A14 | VDD33 | B5 | Async | Data bit (4) | Data bit (4) | Data bit (4) |
PM_DATA_3 | E13 | VDD33 | B5 | Async | Data bit (3) | Data bit (3) | Data bit (3) |
PM_DATA_2 | D14 | VDD33 | B5 | Async | Data bit (2) | Data bit (2) | Data bit (2) |
PM_DATA_1 | C14 | VDD33 | B5 | Async | Data bit (1) | Data bit (1) | Data bit (1) |
PM_DATA_0 | B13 | VDD33 | B5 | Async | Data bit (0) | Data bit (0) | Data bit (0) |
PIN (3) (4) (5) | I/O POWER | I/O TYPE(1) | CLK SYSTEM | DESCRIPTION(2) | |
---|---|---|---|---|---|
NAME | NUMBER | ||||
P_CLK1 | AE22 | VDD33 | I4 D |
N/A | Input port data pixel write clock (selectable as rising or falling edge triggered, and with which port it is associated [Port 1 or Port 2 or [Port 1 and Port 2]]). |
P_CLK2 | W25 | VDD33 | I4 D |
N/A | Input port data pixel write clock (selectable as rising or falling edge triggered, and with which port it is associated [Port 1 or Port 2 or [Port 1 and Port 2]]). |
P_CLK3 | AF23 | VDD33 | I4 D |
N/A | Input port data pixel write clock (selectable as rising or falling edge triggered, and with which port it is associated [Port 1 or Port 2 or [Port 1 and Port 2]]). |
P_DATAEN1 | AF22 | VDD33 | I4 D |
P_CLK1, P_CLK2, or P_CLK3 | Active high data enable. Selectable as to which port it is associated with (Port 1 or Port 2 or [Port 1 and Port 2]). |
P_DATAEN2 | W24 | VDD33 | I4 D |
P_CLK1, P_CLK2, or P_CLK3 | Active high data enable. Selectable as to which port it is associated with (Port 1 or Port 2 or [Port 1 and Port 2]). |
P1_A9 P1_A8 P1_A7 P1_A6 P1_A5 P1_A4 P1_A3 P1_A2 P1_A1 (3) P1_A0 (3) |
AD15 AE15 AE14 AE13 AD13 AC13 AF14 AF13 AF12 AE12 |
VDD33 | I4 D |
P_CLK1, P_CLK2, or P_CLK3 | Port 1 A channel input
pixel data (bit weight 128) Port 1 A channel input pixel data (bit weight 64) Port 1 A channel input pixel data (bit weight 32) Port 1 A channel input pixel data (bit weight 16) Port 1 A channel input pixel data (bit weight 8) Port 1 A channel input pixel data (bit weight 4) Port 1 A channel input pixel data (bit weight 2) Port 1 A channel input pixel data (bit weight 1) Unused, tie to 0 Unused, tie to 0. |
P1_B9 P1_B8 P1_B7 P1_B6 P1_B5 P1_B4 P1_B3 P1_B2 P1_B1 (3) P1_B0 (3) |
AF18 AB18 AC15 AC16 AD16 AE16 AF16 AF15 AC14 AD14 |
VDD33 | I4 D |
P_CLK1, P_CLK2, or P_CLK3 | Port 1 B channel input
pixel data (bit weight 128) Port 1 B channel input pixel data (bit weight 64) Port 1 B channel input pixel data (bit weight 32) Port 1 B channel input pixel data (bit weight 16) Port 1 B channel input pixel data (bit weight 8) Port 1 B channel input pixel data (bit weight 4) Port 1 B channel input pixel data (bit weight 2) Port 1 B channel input pixel data (bit weight 1) Unused, tie to 0 Unused, tie to 0. |
P1_C9 P1_C8 P1_C7 P1_C6 P1_C5 P1_C4 P1_C3 P1_C2 P1_C1 (3) P1_C0 (3) |
AD20 AE20 AE21 AF21 AD19 AE19 AF19 AF20 AC19 AE18 |
VDD33 | I4 D |
P_CLK1, P_CLK2, or P_CLK3 | Port 1 C channel input
pixel data (bit weight 128) Port 1 C channel input pixel data (bit weight 64) Port 1 C channel input pixel data (bit weight 32) Port 1 C channel input pixel data (bit weight 16) Port 1 C channel input pixel data (bit weight 8) Port 1 C channel input pixel data (bit weight 4) Port 1 C channel input pixel data (bit weight 2) Port 1 C channel input pixel data (bit weight 1) Unused, tie to 0 Unused, tie to 0. |
P1_VSYNC | AC20 | VDD33 | B2 D |
P_CLK1, P_CLK2, or P_CLK3 | Port 1 vertical sync. While intended to be associated with port 1, it can be programmed for use with port 2. |
P1_HSYNC | AD21 | VDD33 | B2 D |
P_CLK1, P_CLK2, or P_CLK3 | Port 1 horizontal sync. While intended to be associated with port 1, it can be programmed for use with port 2. |
P2_A9 P2_A8 P2_A7 P2_A6 P2_A5 P2_A4 P2_A3 P2_A2 P2_A1 (3) P2_A0 (3) |
AD26 AD25 AB21 AC22 AD23 AB20 AC21 AD22 AE23 AB19 |
VDD33 | I4 D |
P_CLK1, P_CLK2, or P_CLK3 | Port 2 A channel input
pixel data (bit weight 128) Port 2 A channel input pixel data (bit weight 64) Port 2 A channel input pixel data (bit weight 32) Port 2 A channel input pixel data (bit weight 16) Port 2 A channel input pixel data (bit weight 8) Port 2 A channel input pixel data (bit weight 4) Port 2 A channel input pixel data (bit weight 2) Port 2 A channel input pixel data (bit weight 1) Unused, tie to 0 Unused, tie to 0. |
P2_B9 P2_B8 P2_B7 P2_B6 P2_B5 P2_B4 P2_B3 P2_B2 P2_B1 (3) P2_B0 (3) |
Y22 AB26 AA23 AB25 AA22 AB24 AC26 AB23 AC25 AC24 |
VDD33 | I4 D |
P_CLK1, P_CLK2, or P_CLK3 | Port 2 B channel input
pixel data (bit weight 128) Port 2 B channel input pixel data (bit weight 64) Port 2 B channel input pixel data (bit weight 32) Port 2 B channel input pixel data (bit weight 16) Port 2 B channel input pixel data (bit weight 8) Port 2 B channel input pixel data (bit weight 4) Port 2 B channel input pixel data (bit weight 2) Port 2 B channel input pixel data (bit weight 1) Unused, tie to 0 Unused, tie to 0. |
P2_C9 P2_C8 P2_C7 P2_C6 P2_C5 P2_C4 P2_C3 P2_C2 P2_C1 (3) P2_C0 (3) |
W23 V22 Y26 Y25 Y24 Y23 W22 AA26 AA25 AA24 |
VDD33 | I4 D |
P_CLK1, P_CLK2, or P_CLK3 | Port 2 C channel input
pixel data (bit weight 128) Port 2 C channel input pixel data (bit weight 64) Port 2 C channel input pixel data (bit weight 32) Port 2 C channel input pixel data (bit weight 16) Port 2 C channel input pixel data (bit weight 8) Port 2 C channel input pixel data (bit weight 4) Port 2 C channel input pixel data (bit weight 2) Port 2 C channel input pixel data (bit weight 1) Unused, tie to 0 Unused, tie to 0. |
P2_VSYNC | U22 | VDD33 | B2 D |
P_CLK1, P_CLK2, or P_CLK3 | Port 2 vertical sync. While intended to be associated with port 2, it can be programmed for use with port 1. |
P2_HSYNC | W26 | VDD33 | B2 D |
P_CLK1, P_CLK2, or P_CLK3 | Port 2 horizontal sync. While intended to be associated with port 2, it can be programmed for use with port 1. |
RESERVED_H23 | H23 | VDD33 | B2 | N/A | Connects to BUS_SELECT signal on Primary Controller, must be left unconnected for Secondary Controller |
RESERVED_G23 | G23 | VDD33 | B2 | N/A | Connects to HDMI_CEC signal on Primary Controller, must be left unconnected for Secondary Controller |
PIN | I/O POWER | I/O TYPE(1) | CLK SYSTEM | DESCRIPTION(2) | |
---|---|---|---|---|---|
NAME | NUMBER | ||||
MOSC | M26 | VDD33 | I10 | N/A | System clock oscillator input (3.3V LVTTL). MOSC must be stable a maximum of 25ms after POSENSE transitions from low to high. |
MOSCN | N26 | VDD33 | O10 | N/A | MOSC crystal return |
OCLKA (3) | AF6 | VDD33 | O5 | Async | General-purpose output clock A. The frequency is software programmable. Power-up default is 787kHz and the output frequency is maintained through all operations, except power loss and reset. |
PIN (3) | I/O POWER | I/O TYPE(1) | CLK SYSTEM | DESCRIPTION(2) | |
---|---|---|---|---|---|
NAME | NUMBER | ||||
TDI | N25 | VDD33 | I4
U |
TCK | JTAG serial data in. Used in both Boundary Scan and ICE modes |
TCK | N24 | VDD33 | I4
D |
N/A | JTAG serial data clock. Used in both Boundary Scan and ICE modes |
TMS1 | P25 | VDD33 | I4
U |
TCK | JTAG test mode select. Used in Boundary Scan mode |
TMS2 | P26 | VDD33 | I4
U |
TCK | JTAG-ICE test mode select. Used in ICE mode |
TDO1 | N23 | VDD33 | O5 | TCK | JTAG serial data out. Used in Boundary Scan mode |
TDO2 | N22 | VDD33 | O5 | TCK | JTAG-ICE serial data out. Used in ICE mode |
TRSTZ | M23 | VDD33 | I4
H U |
Async | JTAG Reset. Used in both Boundary Scan and ICE modes. This pin is pulled high (or left unconnected) when the JTAG interface is in use for boundary scan or debug. Connect this to ground otherwise. Failure to tie this pin low during standard operation causes startup and initialization problems. |
RTCK | E4 | VDD33 | O2 | N/A | JTAG return clock. Used in ICE mode. |
ICTSEN | M24 | VDD33 | I4
H D |
Async | IC tri-state enable
(active high). Asserting high will tri-state all outputs except the
JTAG interface. Requires an external 4.7kΩ pulldown resistor |
RESERVED_E8 | E8 | VDD33 | B2
D |
N/A | Connects to signal TSTPT7 |
RESERVED_B4 | B4 | VDD33 | B2
D |
N/A | Connects to signal TSTPT6 |
RESERVED_C4 | C4 | VDD33 | B2
D |
N/A | Connects to signal TSTPT5 |
RESERVED_E7 | E7 | VDD33 | B2
D |
N/A | Connects to signal TSTPT4 |
RESERVED_D5 | D5 | VDD33 | B2
D |
N/A | Connects to signal TSTPT3 |
RESERVED_E6 | E6 | VDD33 | B2
D |
N/A | Connects to signal TSTPT2 |
RESERVED_D3 | D3 | VDD33 | B2
D |
N/A | Connects to signal TSTPT1 |
RESERVED_C2 | C2 | VDD33 | B2
D |
N/A | Connects to signal TSTPT0 |
RESERVED_A4 | A4 | VDD33 | B2
D |
N/A | Connects to signal PIPESTAT2 |
RESERVED_B5 | B5 | VDD33 | B2
D |
N/A | Connects to signal PIPESTAT1 |
RESERVED_C6 | C6 | VDD33 | B2
D |
N/A | Connects to signal PIPESTAT0 |
RESERVED_A5 | A5 | VDD33 | B2
D |
N/A | Connects to signal TRACESYNC |
RESERVED_D7 | D7 | VDD33 | B2
D |
N/A | Connects to signal TRACECLK |
PIN | I/O POWER | I/O TYPE(1) | CLK SYSTEM | DESCRIPTION(2) | |
---|---|---|---|---|---|
NAME | NUMBER | ||||
HW_TEST_EN | M25 | VDD33 | I4 H D | N/A | Device manufacturing test enable. This signal must be connected to an external ground for standard operation. |
PIN | I/O POWER | I/O TYPE(1) | CLK SYSTEM | DESCRIPTION(2) | |
---|---|---|---|---|---|
NAME | NUMBER | ||||
I2C0_SCL | A10 | VDD33 | B8 | N/A | I2C bus 0, clock. This bus supports 400kHz, fast mode operation. This input is not 5V tolerant. This pin requires an external pullup resistor to 3.3V. The minimum acceptable pullup value is 1kΩ resistor. |
I2C0_SDA | B10 | VDD33 | B8 | I2C0_SCL | I2C bus 0, data. This bus supports 400kHz, fast mode operation. This input is not 5-V tolerant. This pin requires an external pullup resistor to 3.3V. The minimum acceptable pullup value is 1kΩ resistor. |
I2C1_SDA (3) | E19 | VDD33 | B2 | I2C1_SCL | I2C bus 1, data. This bus supports 400kHz, fast mode operation. This input is not 5V tolerant. This pin requires an external pullup resistor to 3.3V. The minimum acceptable pullup value is 1kΩ resistor. |
I2C1_SCL (3) | D20 | VDD33 | B2 | N/A | I2C bus 1, clock. This bus supports 400kHz, fast mode operation. This input is not 5V tolerant. This pin requires an external pullup resistor to 3.3V. The minimum acceptable pullup value is 1kΩ resistor. |
I2C2_SDA (3) | C21 | VDD33 | B2 | I2C2_SCL | I2C bus 2, data. This bus supports 400kHz, fast mode operation. This input is not 5V tolerant. This pin requires an external pullup resistor to 3.3V. The minimum acceptable pullup value is 1kΩ resistor. |
I2C2_SCL (3) | B22 | VDD33 | B2 | N/A | I2C bus 2, clock. This bus supports 400kHz, fast mode operation. This input is not 5-V tolerant. This pin requires an external pullup resistor to 3.3V. The minimum acceptable pullup value is 1kΩ resistor. |
RESERVED_AE8 | AE8 | VDD33 | I4 | N/A | PMD Interrupt. This pin requires an external 10kΩ pullup resistor. |
RESERVED_AD8 | AD8 | VDD33 | O5 | N/A | Color wheel control PWM output |
SSP0_CLK | AD4 | VDD33 | B5 | N/A | Synchronous serial port 0, clock |
SSP0_RXD | AD5 | VDD33 | I4 | SSP0_CLK | Synchronous serial port 0, receive data in |
SSP0_TXD | AB7 | VDD33 | O5 | SSP0_CLK | Synchronous serial port 0, transmit data out |
SSP0_CSZ_0 (3) | AC5 | VDD33 | B5 | SSP0_CLK | Synchronous serial port 0, chip select 0 (active low) |
SSP0_CSZ_1 (3) | AB6 | VDD33 | B5 | SSP0_CLK | Synchronous serial port 0, chip select 1 (active low) This signal connects to the DMD SCP_ENZ input |
SSP0_CSZ_2 (3) | AC3 | VDD33 | B5 | SSP0_CLK | Synchronous serial port 0, chip select 2 (active low) |
UART0_TXD | AB3 | VDD33 | O5 | Async | UART0, UART transmit data output. The firmware only outputs debug messages on this port. |
UART0_RXD | AD1 | VDD33 | I4 | Async | UART0, UART receive data input. The firmware does not support receiving data on this port. |
UART0_RTSZ | AD2 | VDD33 | O5 | Async | UART0, UART ready to send hardware flow control output (active low) |
UART0_CTSZ | AE2 | VDD33 | I4 | Async | UART0, UART clear to send hardware flow control input (active low). This pin requires an external 10kΩ pulldown resistor. |
USB_DAT_N (3)
USB_DAT_P |
C5 D6 |
VDD33 | B9 | Async | USB D–
I/O USB D+ I/O |
HOLD_BOOTZ | F24 | VDD33 | B2 | Async | Boot mode. When this pin is held low, the firmware boots-up in bootload mode. When pin is held high, the firmware boots-up in default operating mode. This pin requires an external 1kΩ pullup resistor. |
USB_ENZ (3) | E25 | VDD33 | B2 | Async | The firmware will use this pin to enable an external buffer on the USB data lines after it has completed initialization. |
FAULT_STATUS | AC11 | VDD33 | O2 | Async | This signal toggles or held high to indicate status faults. This pin requires an external 10kΩ pulldown resistor. |
HEARTBEAT | AB12 | VDD33 | O2 | Async | This signal toggles to indicate the system is operational. Period is approximately 1 second. |
RESERVED_AF8 | AF8 | VDD33 | I4 | N/A | Lamp status pin. This pin requires an external 10kΩ pulldown resistor. |
SEQ_INT2 | H26 | VDD33 | I2 | Async | This signal serves as an interrupt for pattern sequencing and must be connected to SEQ_AUX6. |
SEQ_INT1 | G26 | VDD33 | I2 | Async | This signal serves as an interrupt for pattern sequencing and must be connected to SEQ_AUX7. |
SEQ_AUX7 | F26 | VDD33 | O2 | Async | This signal serves as an interrupt for pattern sequencing and must be connected to SEQ_INT1. |
SEQ_AUX6 | E26 | VDD33 | O2 | Async | This signal serves as an interrupt for pattern sequencing and must be connected to SEQ_INT2. |
TEST_FUNC_5 (3) | K22 | VDD33 | B2 | Async | In a dual DLPC900 configuration, this pin connects to the FPGA and could serve as a configuration pin. Otherwise, this pin can be left unconnected. |
TEST_FUNC_4 (3) | J26 | VDD33 | B2 | Async | In a dual DLPC900 configuration, this pin connects to the FPGA and could serve as a configuration pin. Otherwise, this pin can be left unconnected. |
TEST_FUNC_3 (3) | J25 | VDD33 | B2 | Async | In a dual DLPC900 configuration, this pin connects to the FPGA and serves as a configuration pin. This function configures the 24-bit parallel data output of the FPGA to be split between the primary and the secondary controllers. The firmware sets this pin high by default. |
TEST_FUNC_2 (3) | J24 | VDD33 | B2 | Async | In a dual DLPC900 configuration, this pin connects to the FPGA and could serve as a configuration pin. Otherwise, this pin can be left unconnected. |
TEST_FUNC_1 (3) | J23 | VDD33 | B2 | Async | In a dual DLPC900 configuration, this pin connects to the FPGA and could serve as a configuration pin. Otherwise, this pin can be left unconnected. |
GPIO_60 | H22 | VDD33 | B2 | N/A | Used for Flash memory address extension ADDR_26. Pull down to GND with a 10kΩ resistor. |
GPIO_46 | T22 | VDD33 | B2 | N/A | Used for Flash memory address extension ADDR_25. Pull down to GND with a 10kΩ resistor. |
GPIO_45 | U23 | VDD33 | B2 | N/A | Used for Flash memory address extension ADDR_24. Pull down to GND with a 10kΩ resistor. |
GPIO_08 (3) | E21 | VDD33 | B2 | Async | This pin can be configured as GPIO 8. An external pullup resistor is required when this pin is configured as open-drain. (4) |
GPIO_07 (3) | V23 | VDD33 | B2 | Async | This pin can be configured as GPIO 7. An external pullup resistor is required when this pin is configured as open-drain.(4) |
GPIO_06 (3) | V24 | VDD33 | B2 | Async | This pin can be configured as GPIO 6. An external pullup resistor is required when this pin is configured as open-drain.(4) |
GPIO_05 (3) | U24 | VDD33 | B2 | Async | This pin can be configured as GPIO 5. An external pullup resistor is required when this pin is configured as open-drain.(4) |
GPIO_04 (3) | U25 | VDD33 | B2 | Async | This pin can be configured as GPIO 4. An external pullup resistor is required when this pin is configured as open-drain.(4) |
GPIO_PWM_03 (3) | A23 | VDD33 | B2 | Async | This pin can be configured as GPIO 3 or PWM 3. An external pullup resistor is required when this pin is configured as open-drain. (4) |
GPIO_PWM_02 (3) | A22 | VDD33 | B2 | Async | This pin can be configured as GPIO 2 or PWM 2. An external pullup resistor is required when this pin is configured as open-drain.(4) |
GPIO_PWM_01 (3) | B21 | VDD33 | B2 | Async | This pin can be configured as GPIO 1 or PWM 1. An external pullup resistor is required when this pin is configured as open-drain. (4) |
GPIO_PWM_00 (3) | A21 | VDD33 | B2 | Async | This pin can be configured as GPIO 0 or PWM 0. An external pullup resistor is required when this pin is configured as open-drain.(4) |
RESERVED_AF9 | AF9 | VDD33 | B2 | N/A | This pin connects to signal 3DLR_GPIO78. |
RESERVED_G24 | G24 | VDD33 | B2 | N/A | This pin connects to signal IIC_BUSY (I2C_BUSY). |
RESERVED_F23 | F23 | VDD33 | B2 | N/A | This pin connects to signal SSP1_CSZ_1 of the primary controller in a dual controller configuration. Otherwise, leave unconnected. |
RESERVED_D26 | D26 | VDD33 | B2 | N/A | This pin connects to signal SSP1_CSZ_0 of the primary controller in a dual controller configuration. Otherwise, leave unconnected. |
RESERVED_E24 | E24 | VDD33 | B2 | N/A | This pin connects to signal SSP1_DO of the primary controller in a dual controller configuration. Otherwise, leave unconnected. |
RESERVED_F22 | F22 | VDD33 | B2 | N/A | This pin connects to signal SSP1_DIN of the primary controller in a dual controller configuration. Otherwise, leave unconnected. |
RESERVED_D25 | D25 | VDD33 | B2 | N/A | This pin connects to signal SSP1_CLK of the primary controller in a dual controller configuration. Otherwise, leave unconnected. |
PIN | I/O POWER | I/O TYPE(1) | CLK SYSTEM | DESCRIPTION(2) | |
---|---|---|---|---|---|
NAME | NUMBER | ||||
TRIG_IN_1(3) | AF7 | VDD33 | I4 | Async | In video pattern mode, this signal is used for advancing the pattern display. |
TRIG_IN_2(3) | H25 | VDD33 | I2 | Async | In video pattern mode, the rising edge of this signal is used for starting the pattern display and the falling edge is used for stopping the pattern display. It works along with the software start stop command. |
TRIG_OUT_1 | E20 | VDD33 | O2 | Async | Active high trigger output signal during pattern exposure |
TRIG_OUT_2 | D22 | VDD33 | O2 | Async | Active high trigger output to indicate first pattern display |
PIN (3) | I/O POWER | I/O TYPE(1) | CLK SYSTEM | DESCRIPTION(2) | |
---|---|---|---|---|---|
NAME | NUMBER | ||||
BLU_LED_PWM | C20 | VDD33 | O2 | Async | Blue LED PWM current control signal |
GRN_LED_PWM | B20 | VDD33 | O2 | Async | Green LED PWM current control signal |
RED_LED_PWM | B19 | VDD33 | O2 | Async | Red LED PWM current control signal |
BLU_LED_EN | D24 | VDD33 | O2 | Async | Blue LED enable signal |
GRN_LED_EN | C25 | VDD33 | O2 | Async | Green LED enable signal |
RED_LED_EN | B26 | VDD33 | O2 | Async | Red LED enable signal |
PIN | I/O POWER | I/O TYPE(1) | CLK SYSTEM | DESCRIPTION(2) | |
---|---|---|---|---|---|
NAME | NUMBER | ||||
SEQ_SYNC | AB9 | VDD33 | B3 | Async | Sequence sync. This signal must be connected between the primary and secondary controller in a two controller configuration. Do not leave unconnected. This pin requires an external 10kΩ pullup resistor. |
SSP0_CSZ4_SLV | U26 | VDD33 | B2 | SSP0_CLK | This signal is used by the primary controller to communicate with the secondary controller over the SSP interface. This pin requires an external 4.7kΩ pullup resistor. |
FSD12_OUTPUT | T23 | VDD33 | B2 | Async | This pin must be connected to DA_SYNC_INPUT (3). |
DA_SYNC_INPUT | R22 | VDD33 | B2 | Async | This pin must be connected to FSD12_OUTPUT (4). |
SLV_CTRL_PRST | V25 | VDD33 | B2 | Async | This signal must be connected between the primary and secondary controller in a two controller configuration. The secondary controller will pull this signal high to inform the primary controller that it is present and ready. This pin requires an external 10kΩ pulldown resistor. Do not leave unconnected. |
CTRL_MODE_CFG | V26 | VDD33 | B2 | Async | When this pin is high, the controller operates as the primary controller. When this pin is low the controller operates as the secondary controller. Use an external 4.7kΩ pullup or pulldown resistor to identify the controller. Do not leave unconnected. |
PIN | I/O POWER | I/O TYPE(1) | CLK SYSTEM | DESCRIPTION(2) | |
---|---|---|---|---|---|
NAME | NUMBER | ||||
RESERVED_AD12 | AD12 | VDD33 | O6 | N/A | Reserved. Must be left unconnected |
RESERVED_AF11 | AF11 | VDD33 | I4 | N/A | Reserved. Must be left unconnected |
RESERVED_AD11 | AD11 | VDD33 | I4 | N/A | Reserved. Must be left unconnected |
RESERVED_AE11 | AE11 | VDD33 | I4 | N/A | Reserved. Must be left unconnected |
RESERVED_AC9 | AC9 | VDD33 | O5 | N/A | Reserved. Must be left unconnected |
RESERVED_E3 | E3 | VDD33 | B5 | N/A | Reserved. Must be left unconnected |
RESERVED_AB10 | AB10 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_AD9 | AD9 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_AE9 | AE9 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_AB11 | AB11 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_AC10 | AC10 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_AD10 | AD10 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_AE10 | AE10 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_AF10 | AF10 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_K24 | K24 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_K23 | K23 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_J22 | J22 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_H24 | H24 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_G25 | G25 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_F25 | F25 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_G22 | G22 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_E23 | E23 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_C26 | C26 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_AB4 | AB4 | VDD33 | B5 | N/A | Reserved. Must be left unconnected |
RESERVED_C23 | C23 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_D21 | D21 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_B24 | B24 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_C22 | C22 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_B23 | B23 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_A20 | A20 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_A19 | A19 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_E18 | E18 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_D19 | D19 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
RESERVED_C19 | C19 | VDD33 | B2 | N/A | Reserved. Must be left unconnected |
PIN(3) | I/O TYPE(1) | DESCRIPTION(2) | |
---|---|---|---|
NAME | NUMBER | ||
VDD33 | F20, F17, F11, F8, L21, R21, Y21, | PWR | 3.3V I/O power |
AA19, AA16, AA10, AA7 | |||
VDD18 | C1, F5, G6, K6, M5, P5, T5, | PWR | 1.8V internal DRAMVDD and LVDSAVD I/O power (To shut this power down in a system low-power mode, see the Section 8.3.) |
W6, AA5, AE1, H5, N6, T6, | |||
AA13, U21, P21, H21, F14 | |||
VDDC | F19, F16, F13, F10, F7, H6, L6, | PWR | 1.15V core power |
P6, U6, Y6, AA8, AA11, AA14, AA17, | |||
AA20, W21, T21, N21, K21, G21, L11, | |||
T11, T16, L16 | |||
PLLD_VDD | L22 | PWR | 1.15V DMD clock generator PLL Digital power |
PLLD_VSS | L23 | GND | 1.15V DMD clock generator PLL Digital GND |
PLLD_VAD | K25 | PWR | 1.8V DMD clock generator PLL Analog power |
PLLD_VAS | K26 | GND | 1.8V DMD clock generator PLL Analog GND |
PLLM1_VDD | L26 | PWR | 1.15V primary-LS clock generator PLL Digital power |
PLLM1_VSS | M22 | GND | 1.15V primary-LS clock generator PLL Digital GND |
PLLM1_VAD | L24 | PWR | 1.8V primary-LS clock generator PLL Analog power |
PLLM1_VAS | L25 | GND | 1.8V primary-LS clock generator PLL Analog GND |
PLLM2_VDD | P23 | PWR | 1.15V primary-HS clock generator PLL Digital power |
PLLM2_VSS | P24 | GND | 1.15V primary-HS clock generator PLL Digital GND |
PLLM2_VAD | R25 | PWR | 1.8V primary-HS clock generator PLL Analog power |
PLLM2_VAS | R26 | GND | 1.8V primary-HS clock generator PLL Analog GND |
PLLS_VAD | R23 | PWR | 1.15V video-2X clock generator PLL Analog power |
PLLS_VAS | R24 | GND | 1.15V video-2X clock generator PLL Analog GND |
L_VDQPAD_[7:0], R_VDQPAD_[7:0] | B18, D18, B17, E17, A18, C18, A17, | RES | DRAM direct test pins (for manufacturing use only). These pins must be tied directly to ground when in operation. |
D17, AE17, AC17, AF17, AC18, AB16, AD17, | |||
AB17, AD18 | |||
CFO_VDD33 | AE26 | RES | DRAM direct test control pin (for manufacturing use only). This pin must be tied directly to 3.3 I/O power (VDD33) when in operation. |
VTEST1, VTEST2, VTEST3, VTEST4 | AB14, AB15, E15, E16 | RES | DRAM direct test control pins (for manufacturing use only). These pins must be tied directly to ground when in operation. |
LVDS_AVS1, LVDS_AVS2 | V5, K5 | PWR | Dedicated ground for LVDS bandgap reference. These pins must be tied directly to ground when in operation. |
VPGM | AC6 | PWR | Fuse programming pin (for manufacturing use only). This pin must be tied directly to ground when in operation. |
GND | A26, A25, A24, B25, C24, D23, | GND | Common ground |
E22, F21, F18, F15, F12, F9, F6, | |||
E5, D4, C3, B3, A3, B2, A2, | |||
B1, A1, G5, J5, J6, L5, M6, | |||
N5, R5, R6, U5, V6, W5, Y5, | |||
AA6, AB5, AC4, AD3, AE3, AF3, AF2, | |||
AF1, AA9, AA12, AA15, AA18, AA21, AB22, | |||
AC23, AD24, AE24, AF24, AE25, AF25, AF26, | |||
V21, M21, J21, L15, L14, L13, L12, | |||
M16, M15, M14, M13, M12, M11, N16, | |||
N15, N14, N13, N12, N11, P16, P15, | |||
P14, P13, P12, P11, R16, R15, R14, | |||
R13, R12, R11, T15, T14, T13, T12 |
I/O | ESD STRUCTURE | |
---|---|---|
(SUBSCRIPT)(3) | DESCRIPTION | |
1 | N/A | N/A |
2 | 3.3 LVTTL I/O buffer, with 8mA drive | ESD diode to VDD33 and GND |
3 | 3.3 LVTTL I/O buffer, with 12mA drive | |
4 | 3.3 LVTTL receiver | |
5 | 3.3 LVTTL I/O buffer, with 8mA drive, with slew rate control | |
6 | 3.3 LVTTL I/O buffer, with programmable 4mA, 8mA, or 12mA drive | |
7 | 1.8V LVDS (DMD interface) | |
8 | 3.3V I2C with 3mA sink | |
9 | USB-compatible (3.3V) | |
10 | OSC 3.3V I/O compatible LVTTL | |
(TYPE) | N/A | |
I | Input | |
O | Output | |
B | Bidirectional | |
H | Hysteresis | |
U | Includes an internal termination pullup resistor | |
D | Includes an internal termination pulldown resistor |