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complete 14-bit, 56 msps imaging signal processor AD9941 rev. 0 information furnished by analog devices is believed to be accurate and reliable. however, no responsibility is assumed by analog devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. specifications subject to change without notice. no license is granted by implication or otherwise under any patent or patent ri ghts of analog devices. trademarks and registered trademarks are the property of their respective owners. one technology way, p.o. box 9106, norwood, ma 02062-9106, u.s.a. tel: 781.329.4700 www.analog.com fax: 781.461.3113 ? 2005 analog devices, inc. all rights reserved. features differential sensor input with 1 v p-p input range 0 db/6 db variable gain amplifier (vga) low noise optical black clamp circuit 14-bit, 56 msps analog-to-digital converter (adc) no missing codes guaranteed 3-wire serial digital interface 3 v single-supply operation low power cmos: 145 mw @ 3.0 v, 56 mhz 48-lead lqfp package applications digital still cameras using cmos imagers professional hdtv camcorders professional/high-end digital cameras broadcast cameras general description the AD9941 is a complete analog signal processor for imaging applications that do not require correlated double sampling (cds). it is also suitable for processing the output signal from the ad9940 cds front end product. it features a 56 mhz, single- channel architecture designed to sample and condition the output of cmos imagers and ccd arrays already containing on-chip cds. the AD9941 signal chain consists of a differential input sample-and-hold amplifier (sha), a digitally controlled variable gain amplifier (vga), a black level clamp, and a 14-bit adc. the internal registers are programmed through a 3-wire serial digital interface. the AD9941 operates from a single 3 v supply, typically dissipates 145 mw, and is packaged in a 48-lead lqfp. functional block diagram adclk band gap reference dout pblk reft refb 0db, 6db v in+ dvdd dvss vin? drvdd drvss digital interface sdata sck sl clpob 14 vga clp AD9941 8 internal registers blk clamp level 14-bit adc avdd avss 05504-001 sha figure 1.
AD9941 rev. 0 | page 2 of 16 table of contents specifications .....................................................................................3 digital specifications ....................................................................3 analog specifications ...................................................................4 timing specifications ...................................................................5 timing diagrams ..........................................................................5 absolute maximum ratings ............................................................6 thermal characteristics ...............................................................6 esd caution ..................................................................................6 pin configuration and function descriptions .............................7 ter mi nolo g y .......................................................................................8 equivalent input/output circuits ...................................................9 serial interface timing ...................................................................10 circuit description and operation ..............................................12 differential input sha ...............................................................12 variable gain amplifier .............................................................13 adc ..............................................................................................13 optical black clamp ...................................................................13 applications information ...............................................................14 outline dimensions ........................................................................16 ordering guide ...........................................................................16 revision history 7/05revision 0: initial version
AD9941 rev. 0 | page 3 of 16 specifications table 1. parameter min typ max unit temperature range operating ?25 +85 c storage ?65 +150 c power supply voltage avdd, dvdd, drvdd 2.9 3.0 3.6 v power dissipation normal operation56 mhz, avdd = dvdd = drvdd = 3.0 v 145 mw standby mode 2 mw maximum clock rate 56 mhz digital specifications drvdd = 2.9 v, c l = 20 pf, unless otherwise noted. table 2. parameter symbol min typ max unit logic inputs high level input voltage v ih 2.1 v low level input voltage v il 0.6 v high level input current i ih 10 a low level input current i il 10 a input capacitance c in 10 pf logic outputs high level output voltage , i oh = 2 ma v oh 2.2 v low level output voltage , i ol = 2 ma v ol 0.5 v
AD9941 rev. 0 | page 4 of 16 analog specifications t min to t max , avdd = dvdd, f adclk = 56 mhz, unless otherwise noted. table 3. parameter min typ max unit notes analog inputs (vin+, vin?) input common-mode range 1 1.1 2.3 v linear operating range for vin+, vin? maximum input amplitude 1 1.0 v p-p vin+ and vin? signal swing maximum differential input amplitude 1 2.0 v p-p defined as vin+ ? vin? ob correction range ob offset shown in note 1 gain 1 (6 db) 1 90 mv gain 2 (0 db) 1 180 mv variable gain amplifier (vga) gain control resolution 2 steps gain range ccd mode gain 1 5.0 5.5 6.0 db ccd mode gain 2 ?0.5 0 +0.5 db black level clamp clamp level resolution 256 steps clamp level clamp level = 4 refblk minimum clamp level (code 0) 0 lsb maximum clamp level (code 255) 1020 lsb a/d converter resolution 14 bits differential nonlinearity (dnl) 0.5 lsb no missing codes guaranteed integral nonlinearity 0.3 % fs full-scale input voltage 2.0 v p-p voltage reference reference top voltage (reft) 2.0 v reference bottom voltage (refb) 1.0 v 1 input signal characteristics defined as 05504-002 2.3v 1v p-p max input signal swing, vin+ and vin? 2v p-p max differential signal, vin+ ? vin? 1.1v vin+ gnd vin? black level white level max ob offset
AD9941 rev. 0 | page 5 of 16 timing specifications c l = 20 pf, f adclk = 56 mhz, refer to figure 2 and figure 8 . table 4. parameter symbol min typ max unit sample clocks adclk clock period 18 ns adclk high/low pulse width 8 ns clpob pulse width 20 pixels internal clock delay t id 3 ns data outputs output delay t od 20 ns output hold time t h 5 ns pipeline delay 9 cycles serial interface maximum sck frequency f sclk 10 mhz sl to sck setup time t ls 10 ns sck to sl hold time t lh 10 ns sdata valid to sck rising edge setup t ds 10 ns sck rising edge to sdata valid hold t dh 10 ns timing diagrams t od t h t id t conv notes 1. vin+ and vin? signals are sampled at adclk rising edges (can be inverted using the adcpol register). 2. internal sampling delay (aperture) t id is typically 3ns. 3. output data latency is nine adclk cycles. adclk output data vin+ n n + 1 n + 2 n + 8 n + 9 n ? 10 n? 1 n? 8 n? 9 n vin? 05504-007 figure 2. input/output data timing imager signal effective pixels clpob optical black pixels horizontal blanking effective pixels pblk output data effective pixel data ob pixel data effective data notes 1. clpob overwrites pblk. pblk does not affect clamp operation if overlapping clpob. 2. pblk signal is optional. 3. digital ouput data is all zeros during pblk. output data latency is nine adclk cycles. 05504-008 figure 3. typical imager timing
AD9941 rev. 0 | page 6 of 16 absolute maximum ratings table 5. parameter rating reft, refb avss ? 0.3 v to avdd + 0.3 v vin+, vin? avss ? 0.3 v to avdd + 0.3 v adclk, rst, sl, sdi, sck dvss ? 0.3 v to dvdd + 0.3 v avdd to avss ?0.3 v to + 3.9 v dvdd and drvdd to dvss and drvss ?0.3 v to +3.9 v any vss to any vss ?0.3 v to +0.3 v digital outputs to drvss ?0.3 v to drvdd + 0.3 v clpob/pblk to dvss ?0.3 v to dvdd + 0.3 v sck, sl, and sdata to dvss ?0.3 v to dvdd + 0.3 v stresses above those listed under absolute maximum ratings may cause permanent damage to the device. this is a stress rating only; functional operation of the device at these or any other conditions above those indicated in the operational section of this specification is not implied. exposure to absolute maximum rating conditions for extended periods may affect device reliability. thermal characteristics thermal resistance for the 48-lead lqfp package: ja = 92c/w 1 1 ja is measured using a 4-layer pcb. esd caution esd (electrostatic discharge) sensitive device. electrosta tic charges as high as 4000 v readily accumulate on the human body and test equipment and can discharge without de tection. although th is product features proprietary esd protection circuitry, permanent damage may occur on devices subjected to high energy electrostatic discharges. therefore, proper esd precautions are recommended to avoid performance degradation or loss of functionality.
AD9941 rev. 0 | page 7 of 16 pin configuration and fu nction descriptions 48 d1 47 d0 46 sl 45 sck 44 sdat a 43 rst 42 dvss 41 nc 40 nc 39 refb 38 reft 37 dvss 35 avss 34 nc 33 avdd 30 vin+ 31 vin? 32 nc 36 nc 29 nc 28 nc 27 nc 25 nc 26 nc 2 d3 3 d4 4 d5 7 d8 6 d7 5 d6 1 d2 8 d9 9 d10 10 d11 12 d13 11 d12 nc = no connect 13 drvdd 14 drvss 15 dvss 16 adclk 17 dvdd 18 nc 19 pblk 20 clpob 21 nc 22 nc 23 nc 24 nc pin 1 AD9941 top view (not to scale) 05504-003 figure 4. pin configuration table 6. pin function descriptions pin no. neonic type description 1 to 12 d2 to d13 do digital data outputs 13 drvdd p digital output driver supply 14 drvss p digital output ground 15 dvss p digital ground 16 adclk di digital data output clock 17 dvdd p digital supply 18, 21 to 29, 32, 34, 36, 40, 41 nc nc no connection (tie to v dd or gnd) 19 pblk di preblanking clock input (internal 50 k pull-up) 20 clpob di black level clamp clock input 30 vin+ ai positive data input 31 vin? ai negative data input 33 avdd p analog supply 35 avss p analog ground (gnd) 37 dvss p digital ground 38 reft ao adc reference voltage top (byp ass to gnd with a 0.1 f capacitor) 39 refb ao adc reference voltage bottom (b ypass to gnd with a 0.1 f capacitor) 42 dvss p digital ground 43 rst di reset control for internal registers (active low) 44 sdata di serial data input signal 45 sck di serial clock 46 sl di serial load enable 47 d0 do digital data output 48 d1 do digital data output
AD9941 rev. 0 | page 8 of 16 terminology differential nonlinearity (dnl) an ideal adc exhibits code transitions that are exactly 1 lsb apart. dnl is the deviation from this ideal value; therefore, every code must have a finite width. no missing codes guaranteed to 14-bit resolution indicates that all 16,384 codes must be present over all operating conditions. peak nonlinearity peak nonlinearity, a full signal chain specification, refers to the peak deviation of the output of the AD9941 from a true straight line. the point used as zero scale occurs 0.5 lsb before the first code transition. positive full scale is defined as a level 1 lsb and 0.5 lsb beyond the last code transition. the deviation is measured from the middle of each output code to the true straight line. the error is then expressed as a percentage of the 2 v adc full-scale signal. the input signal is always appropriately gained up to fill the adcs full-scale range. power supply rejection (psr) the psr is measured with a step change applied to the supply pins. the psr specification is calculated from the change in the data outputs for a given step change in the supply voltage. tot a l o utput noi s e the rms output noise is measured using histogram techniques. the standard deviation of the adc output codes is calculated in lsb and represents the rms noise level of the total signal chain at the specified gain setting. the output noise can be converted to an equivalent voltage, using the relationship 1 lsb = ( adc full scale /2 n codes ) where n is the bit resolution of the adc, and 1 lsb is approximately 122 v. internal delay for sha the internal delay, or aperture delay, is the time delay from when the sampling edge is applied to the AD9941 to when the actual sample of the input signal is held. the adclk samples the input signal during the transition from low to high; therefore, the internal delay is measured from each clocks rising edge to the instant the actual sample is taken.
AD9941 rev. 0 | page 9 of 16 equivalent input/output circuits 05504-004 dvdd dvss 330 figure 5. digital inputsadclk, clpob, pblk, sck, sdata, sl, rst dvss drvdd dvss drvss data three-state dout 05504-005 figure 6. data outputsd0 to d13 60 avdd avss avss 05504-006 figure 7. vin+, vin?
AD9941 rev. 0 | page 10 of 16 serial interface timing all of the internal registers of the AD9941 are accessed through a 3-wire serial interface. each register consists of an 8-bit data byte, starting with the lsb bit. as shown in figure 8 , the data bits are clocked in on the rising edge of sck after sl is asserted low, and the entire 8-bit word is latched in on the rising edge of sl after the last msb bit. consecutive serial writes are performed starting with address 00 and ending with an address msb bit prior to asserting sl high. note that address 00 must be written at the start of any write operation to specify the partsel bit. the lsb of address 00 (partsel) must be set high to write to the AD9941 registers. a hard reset is recommended after power-up to reset the AD9941 prior to performing a serial interface write. a hard reset is performed by asserting the rst pin low for a minimum of 10 s. the serial interface pins sck, sl, and sdi must be in a known state after the rst has been applied. s dat a sck sl d0 d2 d3 d7 d0 d3d2 d7 d0 ... ... ... ... addr 01 d2 d3 d7 d0 d3 d2 d7 ... ... ... ... ... notes 1. any number of adjacent registers may be loaded sequentially, beginning with the lower address 00. 2. when sequentially loading multiple registers, the exact register length (shown above) must be used for each register. 3. all loaded registers are simultaneously updated on the rising edge of sl. addr n addr n + 1 addr 00 t ls t lh t dh t ds d1 d1 d1 d1 05504-009 figure 8. consecutive serial write interface timing
AD9941 rev. 0 | page 11 of 16 table 7. serial interface registers address data bit content default value name description 00 [0] 1 partsel 1 = select AD9941, 0 = select ad9940 [2:1] 1 operation mode 0 = standby mode 1 = 6 db vga gain mode 2 = test mode 3 = 0 db vga gain mode [3] 0 testmode always set to 0 [4] 0 adcpol 0 = adclk rising edge update 1 = adclk falling edge update [5] 0 clpmode 0 = fast clamp off 1 = fast clamp on (the ob loop time constant is reduced by half) [6] 0 testmode always set to 0 [7] 0 dout disable 0 = normal oper ation, 1 = data outputs are three-state 01 [5:0] 0 testmode always set to 0 [6] clpdisable 0 = ob clamp en abled, 1= ob clamp disabled [7] testmode always set to 0 02 [7:0] 0 testmode always set to 72 03 [7:0] 0 testmode always set to 99 04 [7:0] 0 testmode always set to 16 05 [0] 0 clplevel enable 0 = disable clamplev el register, clamp level fixed at 492 lsb 1 = enable clamplevel register, cl amp level is set to value in register value 06 clamplevel [1] 0 clpupdate 0 = ignore new value in clamplevel register 1 = update new clamp level value with clamplevel register [7:2] 0 testmode always set to 0 06 [7:0] 0 clamplevel ob clamp level (0 = 0 lsb, 123 = 492, 255 = 1020 lsb) clamp level (lsb) = 4 refblk
AD9941 rev. 0 | page 12 of 16 circuit descripti on and operation the AD9941 signal processing chain is shown in figure 9. each processing step is essential in achieving a high quality image from the raw data of the imager. differential input sha the differential input sha circuit is designed to accommodate a variety of image sensor output voltages. the timing shown in figure 2 illustrates how the adclk signal is used to sample both vin+ and vin? signals simultaneously. the imagers signal is sampled on the rising edge of adclk. placement of this clock signal is critical in achieving the best performance from the imager. an internal adclk delay (t id ) of 3 ns is caused by internal propagation delays. 05504-010 digital filter clpob optical black clamp 14-bit adc 8-bit dac 8 sha internal v ref 0db, 6db vga reft refb pblk 1.0v 2.0v dout AD9941 0.1 f 0.1 f operation mode register clamp level register 14 vin+ adclk vin? figure 9. internal block diagram
AD9941 rev. 0 | page 13 of 16 variable gain amplifier the vga stage can be programmed to either 0 db or 6 db using the operation mode register. the 6 db gain setting is needed to match a 1 v input signal with the adc full-scale range of 2 v. the 0 db gain setting can be used with the ad9940 cds front end component, which has a 2 v differential output range. note that the ob correction range is different for each gain setting, as outlined in tabl e 3 . adc the AD9941 uses a high performance adc architecture, optimized for high speed and low power. differential nonlinearity (dnl) performance is typically better than 0.5 lsb. the adc uses a 2 v input range. optical black clamp the optical black clamp loop is used to remove residual offsets in the signal chain and to track low frequency variations in the imagers black level. during the optical black (shielded) pixel interval on each line, the adc output is compared with a fixed black level reference, selected by the user in the clamplevel register. the value can be programmed between 0 lsb and 1020 lsb in 256 steps. the resulting error signal is filtered to reduce noise, and the correction value is applied to the adc input through a digital-to-analog converter. normally, the optical black clamp loop is turned on once per horizontal line, but this loop can be updated more slowly to suit a particular application. if external digital clamping is used during the postprocessing, the AD9941 optical black clamping can be disabled using the clpdisable register. the clpob pulse should be placed during the imagers optical black pixels. it is recommended that the clpob pulse duration be at least 20 pixels wide to minimize clamp noise. shorter pulse widths can be used, but clamp noise may increase and the ability to track low frequency variations in the black level will be reduced.
AD9941 rev. 0 | page 14 of 16 applications information all signals should be carefully routed on the pcb to maintain low noise performance. the clock inputs are located on the package side opposite the analog pins and should be connected to the digital asic. a single ground plane is recommended for the AD9941. this ground plane should be as continuous as possible, particularly where analog pins are concentrated. this ensures that all analog decoupling capacitors provide the lowest possible impedance path between the power and bypass pins and their respective ground pins. all decoupling capacitors should be located as close as possible to the package pins. careful placement of a split in the ground plane on the board can help prevent the return current of the horizontal driver from flowing into the analog ground, thereby reducing digital- to-analog coupling noise. power supply decoupling is very important for achieving low noise performance. figure 11 shows the local high frequency decoupling capacitors, but additional capacitance is recommended for lower frequencies. additional capacitors and ferrite beads can further reduce noise. cmos or ccd imager vin+ out+ AD9941 adc out register- data imager timing digital image processing asic digital outputs buffer or level shift timing generator v-driver (ccd) adclk/clamp timing serial interface (may also include tg) vin? out? 05504-011 figure 10. system application diagram
AD9941 rev. 0 | page 15 of 16 3v analog supply clock inputs 3v analog supply 3v driver supply vin? input vin+ input rst serial interface 0.1 f 0.1 f data outputs 48 d1 47 d0 46 sl 45 sck 44 sdata 43 rst 42 dvss 41 nc 40 nc 39 refb 38 reft 37 dvss 35 avss 34 nc 33 avdd 30 vin+ 31 vin? 32 nc 36 nc 29 nc 28 nc 27 nc 25 nc 26 nc 2 d3 3 d4 4 d5 7 d8 6 d7 5 d6 1 d2 8 d9 9 d10 10 d11 12 d13 11 d12 13 drvdd 14 drvss 15 dvss 16 adclk 17 dvdd 18 nc 19 pblk 20 clpob 21 nc 22 nc 23 nc 24 nc pin 1 AD9941 top view (not to scale) 0.1 f 0.1 f 0.1 f 3 14 3 05504-012 figure 11. recommended circuit configuration
AD9941 rev. 0 | page 16 of 16 outline dimensions compliant to jedec standards ms-026-bbc top view (pins down) 1 12 13 25 24 36 37 48 0.27 0.22 0.17 0.50 bsc lead pitch 7.00 bsc sq 1.60 max 0.75 0.60 0.45 view a 9.00 bsc sq pin 1 0.20 0.09 1.45 1.40 1.35 0.08 max coplanarity view a rotated 90 ccw seating plane 7 3.5 0 0.15 0.05 figure 12. 48-lead low profile quad flat package [lqfp] (st-48) dimensions shown in millimeters ordering guide model temperature range package description package option AD9941bstz 1 ?25c to +85c 48-lead low profile quad flat package (lqfp) st-48 AD9941bstzrl 1 ?25c to +85c 48-lead low profile quad flat package (lqfp) st-48 1 z = pb-free part. ? 2005 analog devices, inc. all rights reserved. trademarks and registered trademarks are the prop erty of their respective owners. d05504C0C7/05(0)

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