DLPS036B September   2014  – October 2016 DLP9000

PRODUCTION DATA.  

  1. Features
  2. Applications
  3. Description
  4. Revision History
  5. Description (continued)
  6. Pin Configuration and Functions
  7. Specifications
    1. 7.1  Absolute Maximum Ratings
    2. 7.2  Storage Conditions
    3. 7.3  ESD Ratings
    4. 7.4  Recommended Operating Conditions
    5. 7.5  Thermal Information
    6. 7.6  Electrical Characteristics
    7. 7.7  Timing Requirements
    8. 7.8  Capacitance at Recommended Operating Conditions
    9. 7.9  Typical Characteristics
    10. 7.10 System Mounting Interface Loads
    11. 7.11 Micromirror Array Physical Characteristics
    12. 7.12 Micromirror Array Optical Characteristics
    13. 7.13 Optical and System Image Quality
    14. 7.14 Window Characteristics
    15. 7.15 Chipset Component Usage Specification
  8. Parameter Measurement Information
  9. Detailed Description
    1. 9.1 Overview
    2. 9.2 Functional Block Diagram
    3. 9.3 Feature Description
    4. 9.4 Device Functional Modes
      1. 9.4.1 DLP9000
      2. 9.4.2 DLP9000X
    5. 9.5 Window Characteristics and Optics
      1. 9.5.1 Optical Interface and System Image Quality
      2. 9.5.2 Numerical Aperture and Stray Light Control
      3. 9.5.3 Pupil Match
      4. 9.5.4 Illumination Overfill
    6. 9.6 Micromirror Array Temperature Calculation
    7. 9.7 Micromirror Landed-On/Landed-Off Duty Cycle
      1. 9.7.1 Definition of Micromirror Landed-On/Landed-Off Duty Cycle
      2. 9.7.2 Landed Duty Cycle and Useful Life of the DMD
      3. 9.7.3 Landed Duty Cycle and Operational DMD Temperature
      4. 9.7.4 Estimating the Long-Term Average Landed Duty Cycle of a Product or Application
  10. 10Application and Implementation
    1. 10.1 Application Information
    2. 10.2 Typical Applications
      1. 10.2.1 Typical Application using DLP9000
        1. 10.2.1.1 Design Requirements
        2. 10.2.1.2 Detailed Design Procedure
      2. 10.2.2 Typical Application Using DLP9000X
  11. 11Power Supply Requirements
    1. 11.1 DMD Power Supply Requirements
    2. 11.2 DMD Power Supply Power-Up Procedure
    3. 11.3 DMD Mirror Park Sequence Requirements
      1. 11.3.1 DLP9000
      2. 11.3.2 DLP9000X
    4. 11.4 DMD Power Supply Power-Down Procedure
  12. 12Layout
    1. 12.1 Layout Guidelines
      1. 12.1.1 General PCB Recommendations
      2. 12.1.2 Power Planes
      3. 12.1.3 LVDS Signals
      4. 12.1.4 Critical Signals
      5. 12.1.5 Flex Connector Plating
      6. 12.1.6 Device Placement
      7. 12.1.7 Device Orientation
      8. 12.1.8 Fiducials
    2. 12.2 Layout Example
      1. 12.2.1 Board Stack and Impedance Requirements
  13. 13Device and Documentation Support
    1. 13.1 Device Support
      1. 13.1.1 Device Handling
      2. 13.1.2 Device Nomenclature
      3. 13.1.3 Device Markings
    2. 13.2 Documentation Support
      1. 13.2.1 Related Documentation
    3. 13.3 Community Resources
    4. 13.4 Trademarks
    5. 13.5 Electrostatic Discharge Caution
    6. 13.6 Glossary
  14. 14Mechanical, Packaging, and Orderable Information
    1. 14.1 Thermal Characteristics
    2. 14.2 Package Thermal Resistance
    3. 14.3 Case Temperature

Package Options

Mechanical Data (Package|Pins)
Thermal pad, mechanical data (Package|Pins)
Orderable Information

Pin Configuration and Functions

FLS Package Connector Terminals
355-Pin CLGA
Bottom View
DLP9000 device_teminal_DLPS036.gif

Pin Functions

PIN (1) TYPE
(I/O/P)
SIGNAL DATA
RATE (2)
INTERNAL
TERM (3)
DESCRIPTION TRACE
(mils) (4)
NAME NO.
DATA BUS A
D_AN(0) H10 Input LVDS DDR Differential Data, Negative 737
D_AN(1) G3 Input LVDS DDR Differential Data, Negative 737
D_AN(2) G9 Input LVDS DDR Differential Data, Negative 737
D_AN(3) F4 Input LVDS DDR Differential Data, Negative 738
D_AN(4) F10 Input LVDS DDR Differential Data, Negative 739
D_AN(5) E3 Input LVDS DDR Differential Data, Negative 739
D_AN(6) E9 Input LVDS DDR Differential Data, Negative 737
D_AN(7) D2 Input LVDS DDR Differential Data, Negative 737
D_AN(8) J5 Input LVDS DDR Differential Data, Negative 739
D_AN(9) C9 Input LVDS DDR Differential Data, Negative 736
D_AN(10) F14 Input LVDS DDR Differential Data, Negative 743
D_AN(11) B8 Input LVDS DDR Differential Data, Negative 737
D_AN(12) G15 Input LVDS DDR Differential Data, Negative 739
D_AN(13) B14 Input LVDS DDR Differential Data, Negative 740
D_AN(14) H16 Input LVDS DDR Differential Data, Negative 737
D_AN(15) D16 Input LVDS DDR Differential Data, Negative 737
D_AP(0) H8 Input LVDS DDR Differential Data, Positive 737
D_AP(1) G5 Input LVDS DDR Differential Data, Positive 738
D_AP(2) G11 Input LVDS DDR Differential Data, Positive 737
D_AP(3) F2 Input LVDS DDR Differential Data, Positive 736
D_AP(4) F8 Input LVDS DDR Differential Data, Positive 739
D_AP(5) E5 Input LVDS DDR Differential Data, Positive 738
D_AP(6) E11 Input LVDS DDR Differential Data, Positive 737
D_AP(7) D4 Input LVDS DDR Differential Data, Positive 737
D_AP(8) J3 Input LVDS DDR Differential Data, Positive 739
D_AP(9) C11 Input LVDS DDR Differential Data, Positive 737
D_AP(10) F16 Input LVDS DDR Differential Data, Positive 741
D_AP(11) B10 Input LVDS DDR Differential Data, Positive 737
D_AP(12) H14 Input LVDS DDR Differential Data, Positive 739
D_AP(13) B16 Input LVDS DDR Differential Data, Positive 739
D_AP(14) G17 Input LVDS DDR Differential Data, Positive 737
D_AP(15) D14 Input LVDS DDR Differential Data, Positive 737
DATA BUS B
D_BN(0) AD8 Input LVDS DDR Differential Data, Negative 739
D_BN(1) AE3 Input LVDS DDR Differential Data, Negative 737
D_BN(2) AF8 Input LVDS DDR Differential Data, Negative 736
D_BN(3) AF2 Input LVDS DDR Differential Data, Negative 739
D_BN(4) AG5 Input LVDS DDR Differential Data, Negative 737
D_BN(5) AH8 Input LVDS DDR Differential Data, Negative 737
D_BN(6) AG9 Input LVDS DDR Differential Data, Negative 737
D_BN(7) AH2 Input LVDS DDR Differential Data, Negative 739
D_BN(8) AL9 Input LVDS DDR Differential Data, Negative 737
D_BN(9) AJ11 Input LVDS DDR Differential Data, Negative 738
D_BN(10) AF14 Input LVDS DDR Differential Data, Negative 736
D_BN(11) AE11 Input LVDS DDR Differential Data, Negative 737
D_BN(12) AH16 Input LVDS DDR Differential Data, Negative 740
D_BN(13) AD14 Input LVDS DDR Differential Data, Negative 737
D_BN(14) AG17 Input LVDS DDR Differential Data, Negative 738
D_BN(15) AD16 Input LVDS DDR Differential Data, Negative 738
D_BP(0) AD10 Input LVDS DDR Differential Data, Positive 738
D_BP(1) AE5 Input LVDS DDR Differential Data, Positive 737
D_BP(2) AF10 Input LVDS DDR Differential Data, Positive 737
D_BP(3) AF4 Input LVDS DDR Differential Data, Positive 738
D_BP(4) AG3 Input LVDS DDR Differential Data, Positive 737
D_BP(5) AH10 Input LVDS DDR Differential Data, Positive 737
D_BP(6) AG11 Input LVDS DDR Differential Data, Positive 737
D_BP(7) AH4 Input LVDS DDR Differential Data, Positive 740
D_BP(8) AL11 Input LVDS DDR Differential Data, Positive 736
D_BP(9) AJ9 Input LVDS DDR Differential Data, Positive 739
D_BP(10) AF16 Input LVDS DDR Differential Data, Positive 737
D_BP(11) AE9 Input LVDS DDR Differential Data, Positive 737
D_BP(12) AH14 Input LVDS DDR Differential Data, Positive 737
D_BP(13) AE15 Input LVDS DDR Differential Data, Positive 737
D_BP(14) AG15 Input LVDS DDR Differential Data, Positive 740
D_BP(15) AE17 Input LVDS DDR Differential Data, Positive 739
DATA BUS C
D_CN(0) C15 Input LVDS DDR Differential Data, Negative 737
D_CN(1) E15 Input LVDS DDR Differential Data, Negative 737
D_CN(2) A17 Input LVDS DDR Differential Data, Negative 736
D_CN(3) F20 Input LVDS DDR Differential Data, Negative 737
D_CN(4) B20 Input LVDS DDR Differential Data, Negative 738
D_CN(5) G21 Input LVDS DDR Differential Data, Negative 737
D_CN(6) D22 Input LVDS DDR Differential Data, Negative 737
D_CN(7) E23 Input LVDS DDR Differential Data, Negative 737
D_CN(8) B26 Input LVDS DDR Differential Data, Negative 739
D_CN(9) F28 Input LVDS DDR Differential Data, Negative 737
D_CN(10) C27 Input LVDS DDR Differential Data, Negative 737
D_CN(11) J29 Input LVDS DDR Differential Data, Negative 737
D_CN(12) D26 Input LVDS DDR Differential Data, Negative 737
D_CN(13) H26 Input LVDS DDR Differential Data, Negative 739
D_CN(14) E29 Input LVDS DDR Differential Data, Negative 736
D_CN(15) G29 Input LVDS DDR Differential Data, Negative 737
D_CP(0) C17 Input LVDS DDR Differential Data, Positive 738
D_CP(1) E17 Input LVDS DDR Differential Data, Positive 737
D_CP(2) A15 Input LVDS DDR Differential Data, Positive 735
D_CP(3) F22 Input LVDS DDR Differential Data, Positive 737
D_CP(4) B22 Input LVDS DDR Differential Data, Positive 737
D_CP(5) H20 Input LVDS DDR Differential Data, Positive 737
D_CP(6) D20 Input LVDS DDR Differential Data, Positive 737
D_CP(7) E21 Input LVDS DDR Differential Data, Positive 737
D_CP(8) B28 Input LVDS DDR Differential Data, Positive 739
D_CP(9) F26 Input LVDS DDR Differential Data, Positive 735
D_CP(10) C29 Input LVDS DDR Differential Data, Positive 737
D_CP(11) J27 Input LVDS DDR Differential Data, Positive 737
D_CP(12) D28 Input LVDS DDR Differential Data, Positive 736
D_CP(13) H28 Input LVDS DDR Differential Data, Positive 739
D_CP(14) E27 Input LVDS DDR Differential Data, Positive 736
D_CP(15) G27 Input LVDS DDR Differential Data, Positive 737
DATA BUS D
D_DN(0) AJ15 Input LVDS DDR Differential Data, Negative 737
D_DN(1) AC27 Input LVDS DDR Differential Data, Negative 737
D_DN(2) AK16 Input LVDS DDR Differential Data, Negative 738
D_DN(3) AE29 Input LVDS DDR Differential Data, Negative 738
D_DN(4) AE21 Input LVDS DDR Differential Data, Negative 737
D_DN(5) AF20 Input LVDS DDR Differential Data, Negative 738
D_DN(6) AL15 Input LVDS DDR Differential Data, Negative 737
D_DN(7) AG29 Input LVDS DDR Differential Data, Negative 738
D_DN(8) AD22 Input LVDS DDR Differential Data, Negative 739
D_DN(9) AG21 Input LVDS DDR Differential Data, Negative 738
D_DN(10) AJ23 Input LVDS DDR Differential Data, Negative 736
D_DN(11) AJ29 Input LVDS DDR Differential Data, Negative 737
D_DN(12) AF28 Input LVDS DDR Differential Data, Negative 737
D_DN(13) AK22 Input LVDS DDR Differential Data, Negative 741
D_DN(14) AD28 Input LVDS DDR Differential Data, Negative 739
D_DN(15) AK28 Input LVDS DDR Differential Data, Negative 739
D_DP(0) AJ17 Input LVDS DDR Differential Data, Positive 737
D_DP(1) AC29 Input LVDS DDR Differential Data, Positive 737
D_DP(2) AK14 Input LVDS DDR Differential Data, Positive 738
D_DP(3) AE27 Input LVDS DDR Differential Data, Positive 737
D_DP(4) AD20 Input LVDS DDR Differential Data, Positive 737
D_DP(5) AF22 Input LVDS DDR Differential Data, Positive 738
D_DP(6) AL17 Input LVDS DDR Differential Data, Positive 737
D_DP(7) AG27 Input LVDS DDR Differential Data, Positive 738
D_DP(8) AE23 Input LVDS DDR Differential Data, Positive 739
D_DP(9) AG23 Input LVDS DDR Differential Data, Positive 738
D_DP(10) AJ21 Input LVDS DDR Differential Data, Positive 736
D_DP(11) AJ27 Input LVDS DDR Differential Data, Positive 737
D_DP(12) AF26 Input LVDS DDR Differential Data, Positive 737
D_DP(13) AK20 Input LVDS DDR Differential Data, Positive 740
D_DP(14) AD26 Input LVDS DDR Differential Data, Positive 739
D_DP(15) AK26 Input LVDS DDR Differential Data, Positive 739
SERIAL CONTROL
SCTRL_AN D8 Input LVDS DDR Differential Serial Control, Negative 736
SCTRL_BN AK8 Input LVDS DDR Differential Serial Control, Negative 739
SCTRL_CN G23 Input LVDS DDR Differential Serial Control, Negative 737
SCTRL_DN AH28 Input LVDS DDR Differential Serial Control, Negative 739
SCTRL_AP D10 Input LVDS DDR Differential Serial Control, Positive 736
SCTRL_BP AK10 Input LVDS DDR Differential Serial Control, Positive 739
SCTRL_CP H22 Input LVDS DDR Differential Serial Control, Positive 739
SCTRL_DP AH26 Input LVDS DDR Differential Serial Control, Positive 739
CLOCKS
DCLK_AN H2 Input LVDS Differential Clock, Negative 740
DCLK_BN AJ5 Input LVDS Differential Clock, Negative 740
DCLK_CN C23 Input LVDS Differential Clock, Negative 736
DCLK_DN AH22 Input LVDS Differential Clock, Negative 736
DCLK_AP H4 Input LVDS Differential Clock, Positive 740
DCLK_BP AJ3 Input LVDS Differential Clock, Positive 740
DCLK_CP C21 Input LVDS Differential Clock, Positive 736
DCLK_DP AH20 Input LVDS Differential Clock, Positive 738
SERIAL COMMUNICATIONS PORT (SCP)
SCP_DO AC3 Output LVCMOS SDR Serial Communications Port Output
SCP_DI AD2 Input LVCMOS SDR Pull-Down Serial Communications Port Data Input
SCP_CLK AE1 Input LVCMOS Pull-Down Serial Communications Port Clock
SCP_ENZ AD4 Input LVCMOS Pull-Down Active-low Serial Communications Port Enable
MICROMIRROR RESET CONTROL
RESET_ADDR(0) H12 Input LVCMOS Pull-Down Reset Driver Address Select
RESET_ADDR(1) C5 Input LVCMOS Pull-Down Reset Driver Address Select
RESET_ADDR(2) B6 Input LVCMOS Pull-Down Reset Driver Address Select
RESET_ADDR(3) A19 Input LVCMOS Pull-Down Reset Driver Address Select
RESET_MODE(0) J1 Input LVCMOS Pull-Down Reset Driver Mode Select
RESET_MODE(1) G1 Input LVCMOS Pull-Down Reset Driver Mode Select
RESET_SEL(0) AK4 Input LVCMOS Pull-Down Reset Driver Level Select
RESET_SEL(1) AL13 Input LVCMOS Pull-Down Reset Driver Level Select
RESET_STROBE H6 Input LVCMOS Pull-Down Reset Address, Mode, & Level latched on rising-edge
ENABLES AND INTERRUPTS
PWRDNZ B4 Input LVCMOS Active-low Device Reset
RESET_OEZ AK24 Input LVCMOS Pull-Down Active-low output enable for DMD reset driver circuits
RESETZ AL19 Input LVCMOS Pull-Down Active-low sets Reset circuits in known VOFFSET state
RESET_IRQZ C3 Output LVCMOS Active-low, output interrupt to ASIC
VOLTAGE REGULATOR MONITORING
PG_BIAS J19 Input LVCMOS Pull-Up Active-low fault from external VBIAS regulator
PG_OFFSET A13 Input LVCMOS Pull-Up Active-low fault from external VOFFSET regulator
PG_RESET AC19 Input LVCMOS Pull-Up Active-low fault from external VRESET regulator
EN_BIAS J15 Output LVCMOS Active-high enable for external VBIAS regulator
EN_OFFSET H30 Output LVCMOS Active-high enable for external VOFFSET regulator
EN_RESET J17 Output LVCMOS Active-high enable for external VRESET regulator
LEAVE PIN UNCONNECTED
MBRST(0) L5 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(1) M28 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(2) P4 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(3) P30 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(4) L3 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(5) P28 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(6) P2 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(7) T28 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(8) M4 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(9) L29 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(10) T4 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(11) N29 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(12) N3 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(13) L27 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(14) R3 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(15) V28 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(16) V4 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(17) R29 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(18) Y4 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(19) AA27 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(20) W3 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(21) W27 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(22) AA3 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(23) W29 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(24) U5 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(25) U29 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(26) Y2 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(27) AA29 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(28) U3 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(29) Y30 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(30) AA5 Output Analog Pull-Down For proper DMD operation, do not connect
MBRST(31) R27 Output Analog Pull-Down For proper DMD operation, do not connect
LEAVE PIN UNCONNECTED
RESERVED_PFE J11 Input LVCMOS Pull-Down For proper DMD operation, do not connect
RESERVED_TM AC7 Input LVCMOS Pull-Down For proper DMD operation, do not connect
RESERVED_XI0 AC25 Input LVCMOS Pull-Down For proper DMD operation, do not connect
RESERVED_XI1 AC23 Input LVCMOS Pull-Down For proper DMD operation, do not connect
RESERVED_XI2 J23 Input LVCMOS Pull-Down For proper DMD operation, do not connect
RESERVED_TP0 AC9 Input Analog For proper DMD operation, do not connect
RESERVED_TP1 AC11 Input Analog For proper DMD operation, do not connect
RESERVED_TP2 AC13 Input Analog For proper DMD operation, do not connect
LEAVE PIN UNCONNECTED
RESERVED_BA AC15 Output LVCMOS For proper DMD operation, do not connect
RESERVED_BB J13 Output LVCMOS For proper DMD operation, do not connect
RESERVED_BC AC21 Output LVCMOS For proper DMD operation, do not connect
RESERVED_BD J21 Output LVCMOS For proper DMD operation, do not connect
RESERVED_TS AC17 Output LVCMOS For proper DMD operation, do not connect
LEAVE PIN UNCONNECTED
NO CONNECT J7 For proper DMD operation, do not connect
NO CONNECT J9 For proper DMD operation, do not connect
NO CONNECT J25 For proper DMD operation, do not connect
The following power supplies are required to operate the DMD: VCC, VCCI, VOFFSET, VBIAS, and VRESET. VSS must also be connected.
DDR = Double Data Rate.
SDR = Single Data Rate.
Refer to the Timing Requirements regarding specifications and relationships.
Internal term = CMOS level internal termination. Refer to Recommended Operating Conditions regarding differential termination specification.
Dielectric Constant for the DMD Type A ceramic package is approximately 9.6.
For the package trace lengths shown:
Propagation Speed = 11.8 / sqrt(9.6) = 3.808 in/ns.
Propagation Delay = 0.262 ns/in = 262 ps/in = 10.315 ps/mm.

Pin Functions

PIN TYPE
(I/O/P)
SIGNAL DESCRIPTION
NAME (1) NO.
VBIAS A3, A9, A5, A11, A7, B2 Power Analog Supply voltage for positive Bias level of Micromirror reset signal.
VOFFSET L1, N1, R1 Power Analog Supply voltage for HVCMOS logic.
U1, W1 Power Analog Supply voltage for stepped high voltage at Micromirror address electrodes.
AC1, AA1 Power Analog Supply voltage for Offset level of MBRST(31:0).
VRESET L31, N31, R31, U31, W31, AA31 Power Analog Supply voltage for negative Reset level of Micromirror reset signal.
VCC A21, A23, A25, A27, A29, C1, C31, E31, G31, J31, K2, AC31, AE31, AG1, AG31, AJ31, AK2, AK30, AL3, AL5, AL7, AL21, AL23, AL25, AL27 Power Analog Supply voltage for LVCMOS core logic.
Supply voltage for normal high level at Micromirror address electrodes.
VCCI H18, H24, M6, M26, P6, P26, T6, T26, V6, V26, Y6, Y26, AD6, AD12, AD18, AD24 Power Analog Supply voltage for LVDS receivers.
VSS A1, B12, B18, B24, B30, C7, C13, C19, C25, D6, D12, D18, D24, D30, E1, E7, E13, E19, E25, F6, F12, F18, F24, F30, G7, G13, G19, G25, K4, K6, K26, K28, K30, M2, M30, N5, N27, R5, T2, T30, U27, V2, V30, W5, Y28, AB2, AB4, AB6, AB26, AB28, AB30, AC5, AD30, AE7, AE13, AE19, AE25, AF6, AF12, AF18, AF24, AF30, AG7, AG13, AG19, AG25, AH6, AH12, AH18, AH24, AH30, AJ1, AJ7, AJ13, AJ19, AJ25, AK6, AK12, AK18, AL29 Power Analog Device Ground. Common return for all power.
The following power supplies are required to operate the DMD: VCC, VCCI, VOFFSET, VBIAS, and VRESET. VSS must also be connected.