ZHCSIG4B July 2018 – October 2020 DLPC3434
PRODUCTION DATA
PIN(1) | I/O | TYPE(2) | DESCRIPTION | ||
---|---|---|---|---|---|
NAME | NO. | ||||
CMP_OUT | A12 | I | 6 | Successive approximation ADC (analog-to-digital converter) comparator output (DLPC3434 Input). To implement, use a successive approximation ADC with a thermistor feeding one input of the external comparator and the DLPC3434 controller GPIO_10 (RC_CHARGE) pin driving the other side of the comparator. It is recommended to use the DLPAxxxx to achieve this function. CMP_OUT must be pulled-down to ground if this function is not used (hysteresis buffer). | |
CMP_PWM | A15 | O | 1 | TI internal use. Leave this pin unconnected. | |
HOST_IRQ(3) | N8 | O | 9 | Host
interrupt (output) HOST_IRQ indicates when the DLPC3434 auto-initialization is in progress and most importantly when it completes. This pin is tri-stated during reset. An external pullup must be included on this signal. |
|
IIC0_SCL(4) | N10 | I/O | 7 | I2C secondary (port 0) SCL (bidirectional, open-drain signal with input hysteresis): This pin requires an external pullup resistor. The secondary I2C I/Os are 3.6-V tolerant (high-voltage-input tolerant) and are powered by VCC_INTF (which can be 1.8, 2.5, or 3.3 V). External I2C pullups must be connected to a host supply with an equal or higher supply voltage, up to a maximum of 3.6 V (a lower pullup supply voltage does not typically satisfy the VIH specification of the secondary I2C input buffers). | |
IIC1_SCL | R11 | I/O | 8 | TI internal use. TI recommends an external pullup resistor. | |
IIC0_SDA(4) | N9 | I/O | 7 | I2C secondary (port 0) SDA. (bidirectional, open-drain signal with input hysteresis): This pin requires an external pullup resistor. The secondary I2C port is the control port of controller. The secondary I2C I/O pins are 3.6-V tolerant (high-volt-input tolerant) and are powered by VCC_INTF (which can be 1.8, 2.5, or 3.3 V). External I2C pullups must be connected to a host supply with an equal or higher supply voltage, up to a maximum of 3.6 V (a lower pullup supply voltage does not typically satisfy the VIH specification of the secondary I2C input buffers). | |
IIC1_SDA | R10 | I/O | 8 | TI internal use. TI recommends an external pullup resistor. |
PIN(1) | I/O | TYPE(2) | DESCRIPTION | ||
---|---|---|---|---|---|
NAME | NO. | ||||
LED_SEL_0 | B15 | O | 1 | LED enable select. Automatically controlled by the DLPC3434 programmable DMD sequence. | |
LED_SEL(1:0) 00 01 10 11 |
Enabled LED None Red Green Blue |
||||
LED_SEL_1 | B14 | O | 1 | The controller drives these signals low when RESETZ is asserted and the corresponding I/O power is supplied. The controller continues to drive these signals low throughout the auto-initialization process. A weak, external pulldown resistor is recommended to ensure that the LEDs are disabled when I/O power is not applied. | |
SPI0_CLK | A13 | O | 13 | SPI (Serial Peripheral Interface) port 0, clock. This pin is typically connected to the flash memory clock. | |
SPI0_CSZ0 | A14 | O | 13 | SPI port 0,
chip select 0 (active low output). This pin is typically connected
to the flash memory chip select. TI recommends an external pullup resistor to avoid floating inputs to the external SPI device during controller reset assertion. |
|
SPI0_CSZ1 | C12 | O | 13 | SPI port 0,
chip select 1 (active low output). This pin typically remains
unused. TI recommends an external pullup resistor to avoid floating inputs to the external SPI device during controller reset assertion. |
|
SPI0_DIN | B12 | I | 12 | Synchronous serial port 0, receive data in. This pin is typically connected to the flash memory data out. | |
SPI0_DOUT | B13 | O | 13 | Synchronous serial port 0, transmit data out. This pin is typically connected to the flash memory data in. |