Electronic Components Datasheet Search |
|
DLPC3438ZEZ Datasheet(PDF) 6 Page - Texas Instruments |
|
DLPC3438ZEZ Datasheet(HTML) 6 Page - Texas Instruments |
6 / 62 page DLPC3433, DLPC3438 DLPS035B – FEBRUARY 2014 – REVISED JANUARY 2016 www.ti.com Pin Functions – Board Level Test, Debug, and Initialization PIN I/O DESCRIPTION NAME NUMBER Manufacturing test enable signal. This signal should be connected directly to ground on the HWTEST_EN C10 I6 PCB for normal operation. DMD fast PARK control (active low Input) (hysteresis buffer). PARKZ must be set high to enable normal operation. PARKZ should be set high prior to releasing RESETZ (that is, prior to the low-to-high transition on the RESETZ input). PARKZ should be set low for a minimum of 40 µs before any power is removed from the DLPC343x such that the fast DMD PARK operation can be completed. Note for PARKZ, fast PARK control should only be used when loss of power is eminent and beyond the control of the host processor (for example, when the external power source has been disconnected or the battery has dropped below a minimum level). The longest lifetime of the DMD may not be achieved with the fast PARK operation. The longest lifetime is PARKZ C13 I6 achieved with a normal PARK operation. Because of this, PARKZ is typically used in conjunction with a normal PARK request control input through GPIO_08. The difference being that when the host sets PROJ_ON low, which connects to both GPIO_08 and the DLPA200x PMIC chip, the DLPC343x takes much longer than 40 µs to park the mirrors. The DLPA200x holds on all power supplies, and keep RESETZ high, until the longer mirror parking has completed. This longer mirror parking time, of up to 500 µs, ensures the longest DMD lifetime and reliability. The DLPA200x monitors power to the DLPC343x and detects an eminent power loss condition and drives the PARKZ signal accordingly. Reserved P12 I6 TI internal use. Should be left unconnected. Reserved P13 I6 TI internal use. Should be left unconnected. Reserved N13(1) O1 TI internal use. Should be left unconnected. Reserved N12(1) O1 TI internal use. Should be left unconnected. Reserved M13 I6 TI internal use. Should be left unconnected. Reserved N11 I6 TI internal use. Should be left unconnected. TI internal use Reserved P11 I6 This pin must be tied to ground, through an external 8-k Ω, or less, resistor for normal operation. Failure to tie this pin low during normal operation will cause startup and initialization problems. DLPC343x power-on reset (active low input) (hysteresis buffer). Self-configuration starts when a low-to-high transition is detected on RESETZ. All ASIC power and clocks must be stable before this reset is de-asserted. Note that the following signals will be tri-stated while RESETZ is asserted: SPI0_CLK, SPI0_DOUT, SPI0_CSZ0, SPI0_CSZ1, and GPIO(19:00) External pullups or downs (as appropriate) should be added to all tri-stated output signals listed (including bidirectional signals to be configured as outputs) to avoid floating ASIC outputs during reset if connected to devices on the PCB that can malfunction. For SPI, at a minimum, RESETZ C11 I6 any chip selects connected to the devices should have a pullup. Unused bidirectional signals can be functionally configured as outputs to avoid floating ASIC inputs after RESETZ is set high. The following signals are forced to a logic low state while RESETZ is asserted and corresponding I/O power is applied: LED_SEL_0, LED_SEL_1 and DMD_DEN_ARSTZ No signals will be in their active state while RESETZ is asserted. Note that no I2C activity is permitted for a minimum of 500 ms after RESETZ (and PARKZ) are set high. Test pin 0 (includes weak internal pulldown) – tri-stated while RESETZ is asserted low. Sampled as an input test mode selection control approximately 1.5 µs after de-assertion of RESETZ, and then driven as an output. Normal use: reserved for test output. Should be left open or unconnected for normal use. TSTPT_0 R12 B1 Note: An external pullup should not be applied to this pin to avoid putting the DLPC343x in a test mode. Without external pullup (2) With external pullup(3) Feeds TMSEL(0) Feeds TMSEL(0) (1) If operation does not call for an external pullup and there is no external logic that might overcome the weak internal pulldown resistor, then this I/O can be left open or unconnected for normal operation. If operation does not call for an external pullup, but there is external logic that might overcome the weak internal pulldown resistor, then an external pulldown resistor is recommended to ensure a logic low. (2) External pullup resistor must be 8 k Ω, or less, for pins with internal pullup or down resistors. (3) If operation does not call for an external pullup and there is no external logic that might overcome the weak internal pulldown resistor, then the TSTPT I/O can be left open/ unconnected for normal operation. If operation does not call for an external pullup, but there is external logic that might overcome the weak internal pulldown resistor, then an external pulldown resistor is recommended to ensure a logic low. 6 Submit Documentation Feedback Copyright © 2014–2016, Texas Instruments Incorporated Product Folder Links: DLPC3433 DLPC3438 |
Similar Part No. - DLPC3438ZEZ |
|
Similar Description - DLPC3438ZEZ |
|
|
Link URL |
Privacy Policy |
ALLDATASHEET.COM |
Does ALLDATASHEET help your business so far? [ DONATE ] |
About Alldatasheet | Advertisement | Datasheet Upload | Contact us | Privacy Policy | Link Exchange | Manufacturer List All Rights Reserved©Alldatasheet.com |
Russian : Alldatasheetru.com | Korean : Alldatasheet.co.kr | Spanish : Alldatasheet.es | French : Alldatasheet.fr | Italian : Alldatasheetit.com Portuguese : Alldatasheetpt.com | Polish : Alldatasheet.pl | Vietnamese : Alldatasheet.vn Indian : Alldatasheet.in | Mexican : Alldatasheet.com.mx | British : Alldatasheet.co.uk | New Zealand : Alldatasheet.co.nz |
Family Site : ic2ic.com |
icmetro.com |