MAX9217ETM+ Analog Devices

MAX9217 19-3558 Rev 4 8/09 27-Bit, 3MHz-to-35MHz DC-Balanced LVDS Serializer General Description Features The MAX9217 digital video parallel-to-serial converter Proprietary Data Encoding for DC Balance and Reduced EMI serializes 27 bits of parallel data into a serial data stream. Eighteen bits of video data and 9 bits of control data are Control Data Sent During Video Blanking encoded and multiplexed onto the serial interface, reduc- Five Control Data Inputs Are Single-Bit-Error ing the serial data rate. The data enable input determines Tolerant when the video or control data is serialized. Output Common-Mode Filter Reduces EMI The MAX9217 pairs with the MAX9218 deserializer to Greater than 10m STP Cable Drive form a complete digital video serial link. Interconnect can be controlled-impedance PCB traces or twisted-pair Wide 2% Reference Clock Tolerance cable. Proprietary data encoding reduces EMI and pro- ISO 10605 ESD Protection vides DC balance. DC balance allows AC-coupling, Separate Input Supply Allows Interface to 1.8V to providing isolation between the transmitting and receiv- 3.3V Logic ing ends of the interface. The LVDS output is internally terminated with 100. +3.3V Core Supply ESD tolerance is specified for ISO 10605 with 10kV Space-Saving Thin QFN and LQFP Packages contact discharge and 30kV air discharge. -40C to +85C Operating Temperature The MAX9217 operates from a +3.3V core supply and Ordering Information features a separate input supply for interfacing to 1.8V to 3.3V logic levels. This device is available in 48-lead PIN- PART TEMP RANGE Thin QFN and LQFP packages and is specified from PACKAGE -40C to +85C. MAX9217ECM+ -40C to +85C 48 LQFP Applications MAX9217ECM/V+ -40C to +85C 48 LQFP Navigation System Display MAX9217ETM+ -40C to +85C 48 Thin QFN-EP* +Denotes a lead(Pb)-free/RoHS-compliant package. In-Vehicle Entertainment System /V denotes an automotive qualified part. Video Camera *EP = Exposed pad. LCD Displays Pin Configurations TOP VIEW GND 37 24 I.C. V 38 23 PCLK IN CC 24 I.C GND 37 RGB IN0 39 22 DE IN V 38 23 PCLK IN CC RGB IN1 40 21 CNTL IN8 RGB IN0 39 22 DE IN RGB IN2 41 20 CNTL IN7 21 CNTL IN8 RGB IN1 40 RGB IN3 42 19 CNTL IN6 20 CNTL IN7 RGB IN2 41 RGB IN4 43 18 CNTL IN5 MAX9217 19 CNTL IN6 RGB IN3 42 RGB IN5 CNTL IN4 44 17 MAX9217 RGB IN4 43 18 CNTL IN5 RGB IN6 45 16 CNTL IN3 RGB IN5 44 17 CNTL IN4 RGB IN7 46 15 CNTL IN2 16 CNTL IN3 RGB IN6 45 RGB IN8 47 14 V CC 15 CNTL IN2 RGB IN7 46 RGB IN9 48 13 GND 14 V RGB IN8 47 CC + GND RGB IN9 48 13 + LQFP THIN QFN-EP Maxim Integrated Products 1 For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642, or visit Maxims website at www.maxim-ic.com. EVALUATION KIT AVAILABLE GND 1 36 RNG0 2 35 RNG1 V CCIN 3 V RGB IN10 34 CCLVDS RGB IN11 4 33 OUT+ RGB IN12 5 32 OUT- RGB IN13 6 31 LVDS GND RGB IN14 7 30 LVDS GND 8 CMF RGB IN15 29 PWRDWN RGB IN16 9 28 RGB IN17 10 27 V CCPLL CNTL IN0 11 26 PLL GND CNTL IN1 12 25 I.C. GND 1 36 RNG0 V 2 35 RNG1 CCIN RGB IN10 3 34 V CCLVDS 4 RGB IN11 33 OUT+ RGB IN12 5 32 OUT- RGB IN13 6 31 LVDS GND RGB IN14 7 30 LVDS GND RGB IN15 8 29 CMF RGB IN16 9 PWRDWN 28 RGB IN17 10 27 V CCPLL CNTL IN0 11 26 PLL GND CNTL IN1 12 25 I.C.27-Bit, 3MHz-to-35MHz DC-Balanced LVDS Serializer ABSOLUTE MAXIMUM RATINGS V to GND........................................................-0.5V to +4.0V ESD Protection CC Any Ground to Any Ground...................................-0.5V to +0.5V Machine Model (R = 0, C = 200pF) D S OUT+, OUT- to LVDS GND ...................................-0.5V to +4.0V All Pins to GND ..............................................................200V OUT+, OUT- Short Circuit to LVDS GND Human Body Model (R = 1.5k, C = 100pF) D S or V .............................................................Continuous All Pins to GND ................................................................2kV CCLVDS OUT+, OUT- Short Through 0.125F (or smaller), ISO 10605 (R = 2k, C = 330pF) D S 25V Series Capacitor..........................................-0.5V to +16V Contact Discharge (OUT+, OUT-) to GND ....................10kV RGB IN 17:0 , CNTL IN 8:0 , DE IN, Air Discharge (OUT+, OUT-) to GND ............................30kV RNG0, RNG1, PCLK IN, Storage Temperature Range .............................-65C to +150C PWRDWN, CMF to GND......................-0.5V to (V + 0.5V) Junction Temperature......................................................+150C CCIN Continuous Power Dissipation (T = +70C) Lead Temperature (soldering, 10s) .................................+300C A 48-Lead LQFP (derate 21.7mW/C above +70C) ....1739mW 48-Lead Thin QFN (derate 37mW/C above +70C) .2963mW Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. DC ELECTRICAL CHARACTERISTICS (V = +3.0V to +3.6V, R = 100 1%, PWRDWN = high, T = -40C to +85C, unless otherwise noted. Typical values are at CC L A V = +3.3V, T = +25C.) (Notes 1, 2) CC A PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS SINGLE-ENDED INPUTS (RGB IN 17:0 , CNTL IN 8:0 , DE IN, PCLK IN, PWRDWN, RNG ) V = 1.71V to <3V 0.65V V + 0.3 CCIN CCIN CCIN High-Level Input Voltage V V IH 2V + 0.3 CCIN V = 1.71V to <3V -0.3 0.3V CCIN CCIN Low-Level Input Voltage V V IL -0.3 +0.8 V = -0.3V to (V + 0.3V), IN CCIN Input Current I V = 1.71V to 3.6V, -70 +70 A IN CCIN PWRDWN = high or low Input Clamp Voltage V I = -18mA -1.5 V CL CL LVDS OUTPUTS (OUT+, OUT-) Differential Output Voltage V Figure 1 250 335 450 mV OD Change in V Between OD V Figure 1 20 mV OD Complementary Output States Common-Mode Voltage V Figure 1 1.125 1.29 1.375 V OS Change in V Between OS V Figure 1 20 mV OS Complementary Output States Output Short-Circuit Current I V or V = 0 or 3.6V -15 8 +15 mA OS OUT+ OUT- Magnitude of Differential Output I V = 0 5.5 15 mA OSD OD Short-Circuit Current V = 0, OUT+ PWRDWN = low V = 3.6V OUT- Output High-Impedance Current I or -1 +1 A OZ V = 3.6V, OUT+ V = 0 CC V = 0 OUT- 2 MAX9217