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CXA3286R 8-bit 160MSPS Flash A/D Converter Description The CXA3286R is an 8-bit high-speed flash A/D converter capable of digitizing analog signals at the maximum rate of 160MSPS. ECL, PECL or TTL can be selected as the digital input level in accordance with the application. The TTL digital output level allows 1: 2 demultiplexed output. Features * Differential linearity error: 0.5LSB or less * Integral linearity error: 0.5LSB or less * Maximum conversion rate of 160MSPS * Low input capacitance: 10pF * Power saving function * Wide analog input bandwidth: 250MHz * Low power consumption: 550mW * 1: 2 demultiplexed output * 1/2 frequency-divided clock output (with reset function) * Compatible with ECL, PECL and TTL digital input levels * TTL output "H" levels: 2.8V (Typ.) * Output voltage control function (VOCLP) * +3.3V line CMOS IC direct connecting available * Single +5V power supply operation available * Ultra-small surface mounting package (48-pin LQFP) DGND3 48 pin LQFP (Plastic) LEAD TREATMENT: PALLADIUM PLATING Structure Bipolar silicon monolithic IC Applications * LCD monitors * LCD projectors VRM3 AVCC 12 11 10 CLK/E 13 CLKN/E 14 CLK/T 15 SELECT2 16 VOCLP 17 PS 18 DVCC2 19 DGND2 20 PAD0 21 PAD1 22 PAD2 23 PAD3 24 9 8 7 6 5 VRB 2 4 3 DVEE3 1 48 RESETN/E 47 RESET/E 46 RESETN/T 45 SELECT1 44 INV 43 CLKOUT 42 DVCC2 41 DGND2 40 PBD7 39 PBD6 38 PBD5 37 PBD4 AGND 25 26 27 28 29 30 31 32 33 34 35 36 DGND2 DGND1 PBD1 AGND Pin Configuration (Top View) AVCC VRM2 VRT VRM1 VIN PAD7 PAD5 DVCC1 PBD0 PAD4 PAD6 Sony reserves the right to change products and specifications without prior notice. This information does not convey any license by any implication or otherwise under any patents or other right. Application circuits shown, if any, are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits. -1- DVCC2 PBD2 PBD3 E98774-PS CXA3286R Absolute Maximum Ratings (Ta = 25C) Unit AVCC, DVCC1, DVCC2 -0.5 to +7.0 V DGND3 -0.5 to +7.0 V DVEE3 -7.0 to +0.5 V DGND3 - DVEE3 -0.5 to +7.0 V VRT - 2.7 to AVCC V * Analog input voltage VIN * Reference input voltage VRT 2.7 to AVCC V VIN - 2.7 to AVCC V VRB |VRT - VRB| 2.5 V * Digital input voltage ECL/PECL input pin DVEE3 - 0.5 to DGND3 + 0.5 V V TTL input pin DGND1 - 0.5 to DVCC1 + 0.5 SELECT2 pin DGND1 - 0.5 to DVCC1 + 0.5 V V VOCLP pin DGND1 - 0.5 to DVCC1 + 0.5 VID1 (|/E - N/E|) 2.7 V * Storage temperature Tstg -65 to +150 C * Allowable power dissipation PD 1.4 W (when mounted on a two-layer glass fabric base epoxy board with dimentions of 50mm x 50mm, 1.6mm thick) * Supply voltage Recommended Operating Conditions With a single power supply With dual power supply Unit Min. Typ. Max. Min. Typ. Max. Supply voltage DVCC1, DVCC2, AVCC +4.75 +5.0 +5.25 +4.75 +5.0 +5.25 V DGND1, DGND2, AGND -0.05 0 +0.05 -0.05 0 +0.05 V DGND3 +4.75 +5.0 +5.25 -0.05 0 +0.05 V -0.05 0 +0.05 -5.5 -5.0 -4.75 V DVEE3 Analog input voltage VIN VRB VRT VRB VRT V Reference input voltage VRT +2.9 +4.1 +2.9 +4.1 V VRB +1.4 +2.6 +1.4 +2.6 V |VRT - VRB| 1.5 2.1 1.5 2.1 V Digital input voltage ECL/PECL input pin : VIH DVEE3 + 1.5 DGND3 DVEE3 + 1.5 DGND3 V : VIL DVEE3 + 1.1 VIH - 0.4 DVEE3 + 1.1 VIH - 0.4 V TTL input pin : VIH 2.0 2.0 V : VIL 0.8 0.8 V SELECT2 pin : VIH DVCC1 DVCC1 V : VIL DGND1 DGND1 V VOCLP pin DGND1 + 2.4 DVCC1 DGND1 + 2.4 DVCC1 V VID1 (|/E - N/E|) 0.4 0.8 0.4 0.8 V Maximum conversion rate Fc (Straight mode) 125 125 MSPS (DMUX mode) 160 160 MSPS Ambient temperature Ta -20 +75 -20 +75 C * * * * * * 1 VID: Input Voltage Differential ECL and PECL input signal switching level DGND3 VIH (max.) VIL VTH (DGND3 - 1.2V) VID VIH VIL (min.) -2- CXA3286R Pin Description [Symbol] DVEE3 VRB AGND VRM1 AVCC VIN VRM2 AVCC VRM3 AGND VRT DGND3 CLK/E CLKN/E CLK/T SELECT2 VOCLP PS DVCC2 DGND2 PAD0 to PAD7 DGND1 DVCC1 DVCC2 DGND2 PBD0 to PBD7 DGND2 DVCC2 CLKOUT INV SELECT1 RESETN/T RESET/E RESETN/E [Pin No.] 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 to 28 29 30 31 32 33 to 40 41 42 43 44 45 46 47 48 [Description] Digital power supply Bottom reference voltage Analog ground Reference voltage mid point Analog power supply Typical voltage level with a single power supply Typical voltage level with dual power supply -5.0V 1.4 to 2.6V 0V -- +5V VRB to VRT -- +5V -- 0V 2.9 to 4.1V 0V ECL ECL TTL DGND1 or open or DVcc1 Clamp voltage TTL +5V 0V TTL 0V +5V +5V 0V TTL 0V +5V TTL TTL TTL TTL ECL ECL 0V 1.4 to 2.6V 0V -- +5V VRB to VRT Analog signal input -- Reference voltage mid point Analog power supply +5V Reference voltage mid point -- Analog ground 0V Top reference voltage 2.9 to 4.1V Digital power supply +5V ECL/PECL clock input PECL ECL/PECL clock input PECL TTL clock input TTL Data output switching DGND1 or open or DVcc1 TTL high level clamp Clamp voltage Power saving TTL Digital power supply +5V Digital ground 0V PA side data output TTL Digital ground 0V Digital power supply +5V Digital power supply +5V Digital ground 0V PB side data output TTL Digital ground 0V Digital power supply +5V Clock output TTL Data output polarity inversion TTL Output mode selection TTL TTL reset input TTL ECL/PECL reset input PECL ECL/PECL reset input PECL -3- CXA3286R Block Diagram AVCC 5 VRT 11 r1 r/2 r 1 INV 44 DVCC1 30 DVCC2 19 31 42 DGND3 12 8 (MSB) 40 PBD7 39 PBD6 2 * * * r 6bit 38 PBD5 r VRM3 9 r LATCH B TTLOUT 63 8bit 37 PBD4 36 PBD3 35 PBD2 64 r 65 r r * * * 6bit 34 PBD1 126 6bit LATCH + ENCODER 33 PBD0 (LSB) 127 VRM2 7 VIN 6 r 128 r 129 ENCODER (MSB) 28 PAD7 27 PAD6 26 PAD5 r VRM1 4 r * * * 6bit 191 LATCH A LATCH B TTLOUT 192 r 193 25 PAD4 24 PAD3 23 PAD2 22 PAD1 8bit 6bit r r * * * 254 255 r2 VRB 2 CLK/T 15 CLK/E 13 CLKN/E 14 r/2 21 PAD0 (LSB) 16 SELECT2 17 VOCLP 18 PS D Q Q Select 43 CLKOUT RESETN/T 46 RESETN/E 48 RESET/E 47 3 10 AGND 45 SELECT1 29 DGND1 20 32 41 DGND2 1 DVEE3 -4- CXA3286R Pin Description and I/O Pin Equivalent Circuit Pin No. 3, 10 Symbol AGND I/O Standard voltage level GND +5V (typ.) GND +5V (typ.) +5V (typ.) (With a single power supply) GND (With dual power supply) GND (With a single power supply) -5V (typ.) (With dual power supply) DVCC1 r Equivalent circuit Description Analog ground. Separated from the digital ground. Analog power supply. Separated from the digital power supply. Digital ground. Digital power supply. 5, 8 AVCC 20, 29 DGND1 32, 41 DGND2 19, 30 DVCC1 31, 42 DVCC2 12 DGND3 Digital power supply. Ground for ECL input. +5V for PECL and TTL inputs. 1 DVEE3 Digital power supply. -5V for ECL input. Ground for PECL and TTL inputs. 16 SELECT2 I DVcc1 or Open or DGND1 r 16 r DGND1 Data output switching. When left open, data are output from both PA and PB side output ports. For DVcc1 level, PA side output port outputs data and PB side is in the high impedance state. For DGND1 Ievel, PB side output port outputs data and PA side is in the high impedance state. DVCC2 3k 17 VOCLP I Clamp voltage 3.5k 17 DGND2 TTL output high level clamping. The TTL high level voltage is clamped to the value almost equivalent to the voltage applied to this pin . Even if this pin is left open, the TTL high level is clamped to approximately 2.8V. -5- CXA3286R Pin No. Symbol I/O Standard voltage level DVCC1 Equivalent circuit Description 18 PS I TTL 18 Power saving. When left open, this pin goes to high level. When set to low level, the power saving state is established. DGND1 13 CLK/E I Clock input. CLK/E complementary input. When left open, this pin goes to the threshold voltage. Only CLK/E can be used for operation, but complementary inputs are recommended to attain fast and stable operation. Reset signal input. When set to low level, the built-in CLK frequency divider circuit can be reset. RESETN/E complementary input. When left open, this pin goes to the threshold voltage. Only RESETN/E can be used for operation. Clock input. TTL Reset signal input. When left open, this pin goes to high level. When set to low level, the built-in CLK frequency divider circuit can be reset. Data output polarity inversion input. When left open, this input goes to high level. (See Table 1. I/O Correspondence Table.) Data output mode selection. (See Table 2. Operation Mode Table.) 14 CLKN/E I DGND3 ECL/ PECL 48 RESETN/E I 13 48 14 47 DVEE3 47 RESET/E I 15 CLK/T I 46 RESETN/T I DVCC1 44 INV I TTL 15 46 or 44 , 45 DGND1 DVEE3 1.5V 45 SELECT1 Vcc or GND -6- CXA3286R Pin No. Symbol I/O Standard voltage level 4.0V (typ.) Equivalent circuit Description Top reference voltage. By-pass to AGND with a 1F tantal capacitor and a 0.1F chip capacitor. Reference voltage mid point. By-pass to AGND with a 0.1F chip capacitor. Reference voltage mid point. By-pass to AGND with a 0.1F chip capacitor. Reference voltage mid point. By-pass to AGND with a 0.1F chip capacitor. Bottom reference voltage. By-pass to AGND with a 1F tantal capacitor and a 0.1F chip capacitor. 11 VRT I 11 r1 r/2 r 9 VRM3 VRB + 3 (VRT - VRB) 4 9 r r Comparator 1 Comparator 63 Comparator 64 Comparator 127 7 VRM2 VRB + 2 (VRT - VRB) 4 7 r Comparator 128 Comparator 191 4 r Comparator 192 r Comparator 255 r/2 2 r2 VRB + 4 VRM1 1 (VRT - VRB) 4 2 VRB I 2.0V (typ.) AVCC Comparator AVCC 6 VIN I VRT to VRB Analog input. 6 Vref DVEE3 AGND 21 to 28 33 to 40 PAD0 to PAD7 PBD0 to PBD7 O DVCC1 DVCC2 Port A side data output. TTL output; the high level is clamped to approximately 2.8V. Port B side data output. TTL output; the high level is clamped to approximately 2.8V. Clock output. (See Table 2. Operation Mode Table.) TTL output; the high level is clamped to approximately 2.8V. O TTL 100K 21 to 28 33 to 40 43 DGND2 DVEE3 DGND1 43 CLKOUT O -7- CXA3286R Electrical Characteristics ( AVCC, DVCC1, 2, DGND3 = +5V, AGND, DGND1, 2, DVEE3 = 0V, VRT = 4V, VRB = 2V, Ta = 25C) Item Resolution DC characteristics Integral linearity error Differential linearity error Analog input Analog input capacitance Analog input resistance Analog input current Reference input Reference resistance Reference current Offset voltage VRT side VRB side Digital input (ECL, PECL) Digital input voltage: High : Low Threshold voltage Digital input current : High : Low Digital input capacitance Digital input (TTL) Digital input voltage: High : Low Threshold voltage Digital input current : High : Low Digital input capacitance Digital output (TTL) Digital output voltage : High : Low Switching characteristics Maximum conversion rate Aperture jitter Sampling delay Clock high pulse width Clock low pulse width Reset signal setup time Reset signal hold time Clock output delay Data output delay Output rise time Output fall time EIL EDL CIN RIN IIN Rref2 Iref3 EOT EOB VIH VIL VTH IIH IIL Symbol Conditions Min. Typ. 8 0.5 0.5 10 15 100 600 3.3 8 1.5 Max. Unit bits LSB LSB pF k A mA mV mV V V V A A pF V V V A A pF VIN = 2Vp-p, Fc = 5MSPS VIN = +3.0V + 0.07Vrms 7 0 400 2.7 6 0 DVEE3 + 1.5 DVEE3 + 1.1 35 285 740 5.0 10 3 DGND3 VIH - 0.4 DGND3 - 1.2 VIH = DGND3 - 0.8V VIL = DGND3 - 1.6V -50 -50 20 20 5 VIH VIL VTH IIH IIL 2.0 0.8 1.5 VIH = 3.5V VIL = 0.2V -10 -20 5 0 5 VOH VOL Fc Taj Tds Tpw1 Tpw0 T_rs T_rh Td_clk Tdo1 Tdo2 Tr Tf IOH = -2mA IOL = 1mA DMUX mode 2.4 0.5 160 1.2 2.5 2.9 1.0 -0.5 3.0 3.5 10 1.3 1.5 V V MSPS ps ns ns ns ns ns ns ns ns ns ns CLK CLK RESETN - CLK RESETN - CLK DMUX mode 0.8 to 2.0V 0.8 to 2.0V (CL = 5pF) (CL = 5pF) (CL = 5pF) (CL = 5pF) (CL = 5pF) 4.0 T4 + 0.5 4.5 1 1 6.5 7.0 These characteristics are for PECL input unless otherwise specified. -8- CXA3286R Item Dynamic characteristics Input bandwidth S/N ratio Symbol Conditions VIN = 2Vp-p, -3dB Fc = 160MSPS, fin = 1kHz Fs DMUX mode Fc = 160MSPS, fin = 9.999MHz Fs DMUX mode Fc = 160MSPS, fin = 1kHz Fs DMUX mode Error > 16LSB Fc = 160MSPS, fin = 9.999MHz Fs DMUX mode Error > 16LSB Fc = 125MSPS, fin = 31.249MHz Fs Straight mode Error > 16LSB Min. 250 Typ. Max. Unit MHz dB { { 46 42 dB 1 x 10-12 TPS5 Error rate { { { 2 x 10-8 TPS 1 x 10-9 TPS Power supply Supply current AVcc pin supply current DVcc1 pin supply current DVcc2 pin supply current DGND3 pin supply current Supply current for PS AVcc pin supply current for PS DVcc1 pin supply current for PS DVcc2 pin supply current for PS DGND3 pin supply current for PS Power consumption Power consumption for PS ICC + IEE AICC DICC1 DICC2 IEE ICC + IEE AICC DICC1 DICC2 IEE Pd6 Pd7 89 62 22 4.0 0.5 108 140 87 36 15 1.5 5 1.5 1.5 1.5 0.5 mA mA mA mA mA mA mA mA mA mA mW mW 480 0.3 550 700 25 2 Rref: Resistance value between VRT and VRB 3 Iref = VRT - VRB Rref 4 T = 1 Fc 5 TPS: Times Per Sample 2 6 Pd = (ICC + IEE) * VCC + (VRT - VRB) Rref 7 Pd = (ICC + IEE) * VCC -9- CXA3286R INV VIN Step D7 VRT 255 254 . . . 128 127 . . . 1 0 11111 11111 . . . 10000 01111 . . . 00000 00000 1 D0 D7 111 110 000 111 001 000 00000 00000 . . . 01111 10000 . . . 11111 11111 0 D0 000 001 111 000 110 111 VRM2 VRB Table 1. I/O Correspondence Table - 10 - CXA3286R Electrical Characteristics Measurement Circuit Current Consumption Measurement Circuit 5V 5V Sampling Delay Measurement Circuit Aperture Jitter Measurement Circuit 100MHz Amp A Icc 4V VRT AVCC DVCC1 DVCC2 PS A IEE DGND3 OSC1 : Variable VIN fr CLK CXA3286R 8 Logic Analizer 1024 samples 1.95V VIN CLK/E 5MHz PECL OSC2 2V VRB DGND2 DGND1 AGND ECL Buffer DVEE3 100MHz Integral Linearity Error Measurement Circuit Differential Linearity Error Measurement Circuit +V Aperture Jitter Measurement Method VRT VIN VRM2 VRB S2 S1: ON when A < B S2: ON when A > B CLK u t AB Comparator VIN CXA3286R 8 A8 to A1 "0" DVM Controller A0 B8 to B1 B0 8 Buffer CLK "1" 000 *** 00 to 111 *** 10 VIN 129 128 127 126 125 S1 -V (LSB) Sampling timing fluctuation (= aperture jitter) Where (LSB) is the deviation of the output codes when the largest slew rate point is sampled at the clock which has exactly the same frequency as the analog input signal, the aperture jitter Taj is: Taj = / t A B Comparator A>B Pulse Counter = / ( 256 x 2f ) 2 Error Rate Measurement Circuit Signal Source VIN 8 CXA3286R CLK CLK Latch Fc - 1kHz N 2Vp-p Sin Wave + Latch 16LSB Signal Source Fc 1/N - 11 - CXA3286R Description of Operation Modes The CXA3286R has two types of operation modes which are selected with Pin 45 (SELECT1). Operation mode DMUX mode Straight mode SELECT1 Maximum pin conversion rate VCC GND 160MSPS 125MSPS Data output Demultiplexed output 80Mbps Straight output 125Mbps Clock output The input clock is 1/2 frequency divided and output. 80MHz The input clock is inverted and output. 125MHz Table 2. Operation Mode Table 1. DMUX mode (See Application Circuit 1-(1), (2) and (3).) Set the SELECT1 pin to Vcc for this mode. In this mode, the clock frequency is divided by 2 in the IC, and the data is output after being demultiplexed by this 1/2 frequency-divided clock. The 1/2 frequency-divided clock, which has adequate setup time and hold time for the output data, is output from the clock output pin. When using the multiple CXA3286R in DMUX mode, the start timing of the 1/2 frequency-divided clocks becomes out of phase, producing operation such as that shown in the example on the next page. As a countermeasure, the CXA3286R has a function that resets the 1/2 frequency-divided clocks. When resetting this 1/2 frequency-divided clock, the low level of the reset signal should be input to the RESETN pin (Pin 46 or 48). The reset signal requires the setup time (T_rs 1.0ns) and hold time (T_rh -0.5ns) to the clock rising edge because it is synchronized with and taken in the clock. The reset period can be extended by making the low level period of the reset signal longer because the clock output pin is fixed to low (reset) during the low level period at the clock rising edge. If the reset start timing is regarded as not important, the timing where the reset signal is set from high to low is not so consequence. However, when the reset is released the timing where the reset signal is set from low to high must become significant because the timing is used to commence the 1/2 frequency-divided clock. In this case, the setup time (T_rs) is also necessary. See the timing chart for detail. (This chart shows the example of reset for 2T.) The A/D converter can operate at Fc (min.) = 160MSPS in this mode. - 12 - CXA3286R When the reset signal is not used CLK CXA3286R CLK CLK CLKOUT 8bit DATA AA RESETN CXA3286R CLK CLKOUT 8bit DATA BB RESETN When the reset signal is used CLK RESET signal CXA3286R CLK CLK RESETN CLKOUT 8bit DATA (Reset period) A CXA3286R CLK CLKOUT 8bit DATA (Reset period) B RESET signal RESETN 2. Straight mode (See Application Circuits 1-(4), (5) and (6).) Set the SELECT1 pin to GND for this mode. In this mode, data output can be obtained in accordance with the clock frequency applied to the A/D converter for applications which use the clock applied to the A/D converter as the system clock. The A/D converter can operate at Fc (min.) = 125MSPS in this mode. Digital input level and supply voltage settings The logic input level for the CXA3286R supports ECL, PECL and TTL levels. The power supplies (DVEE3, DGND3) for the logic input block must be set to match the logic input (CLK and reset signals) level. Digital input level ECL PECL TTL DVEE3 -5V 0V 0V DGND3 0V +5V +5V Supply voltage Application circuits 5V +5V +5V (1) (4) (2) (5) (3) (6) Table 3. Logic Input Level and Power Supply Settings Description of SELECT2 pin The CXA3286R has two systems of data outputs and the port where the data is output can be selected by the SELECT2 pin. SELECT2 pin Open Vcc1 GND1 Data output PA and PB both sides output possible PA side output possible; PB side in high impedance PB side output possible; PA side in high impedance - 13 - CXA3286R Application Circuit 1 (1) DMUX ECL input ECL RESET signal +5V (D) DG -5V (D) +5V (A) AG AG AG 48 47 46 45 44 43 42 41 40 39 38 37 1 36 35 34 33 32 31 30 29 28 27 26 25 13 14 15 16 17 18 19 20 21 22 23 24 8 bit Digital Data PAD0 to PAD7 8 bit Digital Data Latch 2 3 4 5 6 7 8 9 PBD0 to PBD7 8 bit Digital Data 8 bit Digital Data Latch 2V +5V (A) DG AG AG 10 4V 11 12 ECL-CLK DG +5V (D) (2) DMUX PECL input PECL RESET signal +5V (A) AG AG DG AG +5V (D) DG 48 47 46 45 44 43 42 41 40 39 38 37 1 2V DG DG +5V (D) 36 35 34 33 32 31 30 29 28 27 26 25 13 14 15 16 17 18 19 20 21 22 23 24 2 3 4 5 6 7 8 9 10 PBD0 to PBD7 8 bit Digital Data 8 bit Digital Data Latch +5V (A) +5V (D) AG AG DG DG +5V (D) 4V 11 12 PAD0 to PAD7 8 bit Digital Data 8 bit Digital Data Latch PECL-CLK DG +5V (D) (3) DMUX TTL input +5V (D) DG TTL RESET signal AG AG DG 48 47 46 45 44 43 42 41 40 39 38 37 1 36 35 34 33 32 31 30 29 28 27 26 25 13 14 15 16 17 18 19 20 21 22 23 24 8 bit Digital Data PAD0 to PAD7 8 bit Digital Data Latch 2 3 4 5 6 7 8 9 10 PBD0 to PBD7 8 bit Digital Data 8 bit Digital Data Latch +5V (A) AG 2V +5V (D) +5V (A) AG AG 4V 11 12 TTL-CLK DG +5V (D) - 14 - DG DG +5V (D) CXA3286R (4) Straight ECL input DG +5V (D) DG -5V (D) +5V (A) AG AG AG 48 47 46 45 44 43 42 41 40 39 38 37 1 36 35 34 33 32 31 30 29 28 27 26 25 13 14 15 16 17 18 19 20 21 22 23 24 2 3 4 5 6 7 8 9 PBD0 to PBD7 8 bit Digital Data 8 bit Digital Data Latch 2V DG DG +5V (D) +5V (A) DG AG AG 10 4V 11 12 ECL-CLK ECL TTL DG DG +5V (D) (5) Straight PECL input DG +5V (D) DG +5V (A) AG AG DG AG 48 47 46 45 44 43 42 41 40 39 38 37 1 36 35 34 33 32 31 30 29 28 27 26 25 13 14 15 16 17 18 19 20 21 22 23 24 2 3 4 5 6 7 8 9 10 PBD0 to PBD7 8 bit Digital Data 8 bit Digital Data Latch 2V DG DG DG +5V (A) +5V (D) AG AG 4V 11 12 PECL-CLK PECL TTL DG DG +5V (D) (6) Straight TTL input DG +5V (D) DG +5V (A) AG AG DG AG 48 47 46 45 44 43 42 41 40 39 38 37 1 2V 36 35 34 33 32 31 30 29 28 27 26 25 13 14 15 16 17 18 19 20 21 22 23 24 8 bit Digital Data PAD0 to PAD7 8 bit Digital Data Latch +5V (D) 2 3 4 5 6 7 8 9 10 +5V (A) +5V (D) AG AG 4V 11 12 TTL-CLK DG +5V (D) +5V (D) - 15 - DG +5V (D) CXA3286R Application Circuit 2 DMUX Mode TTL I/O (When a single power supply is used) AG Analog input 4V +5V (D) DG AG 1F AG 10F short short 10F +5V (A) AG 2V 1F AG 12 11 10 9 8 7 6 5 4 3 2 1 DGND3 AGND 13 CLK/E RESETN/E 48 RESET/E 47 RESETN/T 46 SELECT1 45 INV 44 CLKOUT 43 DVCC2 42 DGND2 41 PBD7 40 PBD6 39 PBD5 38 C 14 CLKN/E 15 CLK/T TTL CLK 16 SELECT2 17 VOCLP Clamp voltage 18 PS C 19 DVCC2 20 DGND2 21 PAD0 22 PAD1 23 PAD2 DGND1 DVCC1 DVCC2 DGND2 24 PAD3 DVEE3 PBD4 37 36 VRT AGND VRM3 AVCC VRM2 VIN AVCC VRM1 PBD0 PBD1 VRB 35 PAD4 PAD5 PAD6 PAD7 25 26 27 28 29 30 31 32 C 33 34 PBD2 PAD6 PBD3 PBD3 PBD4 PBD5 Short the analog system and digital system at one point immediately under the A/D converter. See the Notes on Operation. is the chip capacitor of 0.1F. Also, C is important to suppress the noise generated during the TTL output circuit is operating. Place C at the fixed position between the pins with the shortest distance. Application circuits shown are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits or for any infringement of third party patent and other right due to same. - 16 - PBD6 (MSB) PBD7 (LSB) PAD0 PAD1 PAD4 PAD5 (MSB) PAD7 PAD2 PAD3 (LSB) PBD0 PBD1 PBD2 CXA3286R DMUX Mode Timing Chart (Select = VCC) Tds N-2 VIN (Pin 6) N-1 T CLK (Pin 13) Tpw1 Tpw0 Tdo2; 4.5ns (typ.) 3.5ns (min) 7.0ns (max) PAD0 to D7 (Pin 21 to 28) 2.0V 0.8V N N+2 N+3 1.3ns (typ.) N+4 N+5 N+6 N+1 N N+2 PBD0 to D7 (Pin 33 to 40) Td_clk; 4.0ns (typ.) 6.5ns (max) 3.0ns (min) CLK OUT (Pin 43) 2.0V 0.8V 2.0V 0.8V N+1 Tdo1 T + 0.5ns (typ.) 2.0V 0.8V T N+3 T (Reset period) 2.0V 0.8V T_rh RESETN (Pin 48) T_rs T_rh T_rs - 17 - CXA3286R Straight Mode Timing Chart (Select = GND) N-1 VIN (Pin 6) Tds 1.3ns (typ.) T N N+1 N+2 N+3 CLK (Pin 13) Tpw1 Tpw0 Tdo2; 4.5ns (typ.) 3.5ns (min) 7.0ns (max) PAD0 to D7 (Pin 21 to 28) N-4 2.0V 0.8V N-3 N-2 N-1 N PBD0 to D7 (Pin 33 to 40) N-3 2.0V 0.8V N-2 N-1 N N+1 Td_clk; 4.0ns (typ.) 3.0ns (min) 6.5ns (max) CLK OUT (CLK is inverted and output.) (Pin 43) 2.0V 0.8V - 18 - CXA3286R Notes on Operation * The CXA3286R has the PECL and TTL input pins for the clock and reset input pins. When the clock is input in PECL level, inputting the reset signal in PECL level is recommended. Also, when the clock is input in TTL level, inputting the reset signal in TTL is recommended. * The impedance of the input signal should be properly matched to ensure the CXA3286R's stable operation at the high speed. * The power supply and grounding have a profound influence on converter performance. The power supply and grounding method are particularly important during high-speed operation. General points for caution are as follows. -- The ground pattern should be as large as possible. It is recommended to make the power supply and ground patterns wider at an inner layer using a multi-layer board. -- To prevent interference between AGND and DGND and between AVcc and DVcc, make sure the respective patterns are separated. To prevent a DC offset in the power supply pattern, connect the AVcc and DVcc lines at one point each via a ferrite-bead filter, etc. Shorting the AGND and DGND patterns in one place immediately under the A/D converter improves A/D converter performance. -- Be sure to turn the analog and digital power supplies on simultaneously. If not simultaneously, the IC does not operate correctly. -- Ground the power supply pins (AVcc, DVcc1, DVcc2, DVEE3) as close to each pin as possible with a 0.1F or larger ceramic chip capacitor. (Connect the AVcc pin to the AGND pattern and the DVcc1, DVcc2 and DVEE3 pins to the DGND pattern.) -- It is recommended to place the ceramic chip capacitor of 0.1F or more, in particular, between DVcc2 and DGND2 with the shortest distance.This has the effect to suppress the noise generated when the CXA3286R TTL output circuit operates. -- The digital output wiring should be as short as possible. If the digital output wiring is long, the wiring capacitance will increase, deteriorating the output slew rate and resulting in reflection to the output waveform since the original output slew rate is quite fast. * The analog input pin VIN has an input capacitance of approximately 10pF. To drive the A/D converter with the proper frequency response, it is necessary to prevent performance deterioration due to parasitic capacitance or parasitic inductance by using a large capacity drive circuit, keeping wiring as short as possible, and using chip parts for resistors and capacitors, etc. * The VRT and VRB pins must have adequate by-pass to protect them from high-frequency noise. By-pass them to AGND with approximately 1F tantal capacitor and 0.1F chip capacitor as short as possible. * If the CLKN/E pin is not used, by-pass this pin to DGND with an approximately 0.1F capacitor. At this time, approximately DGND3 - 1.2V voltage is generated. However, this is not recommended for use as the threshold voltage VBB because it is too weak. - 19 - CXA3286R * When the digital input level is ECL or PECL level, /E pins should be used and /T pins left open. When the digital input level is TTL, /T pins should be used and /E pins left open. * The CXA3286R TTL output high level is clamped to approximately 2.8 V in the IC.This makes it possible to directly interface with the 3.3V system CMOS IC. However,the CXA3286R has the VOCLP pin which is used to clamp the TTL output high level. See the Example of Representative Characteristics for the relationship between the VOCLP pin and the TTL high level. * The CXA3026AQ has the output pins P1 and P2. However, in the CXA3286R, these symbols are changed as PAand PB. At this time, the P1 side of the CXA3026AQ is changed to the PB side for the CXA3286R; the P2 side of the CXA3026AQ to the PA side for the CXA3286R. * The pipeline delay of the CXA3286R is smaller by one clock, compared to that of CXA3026AQ. - 20 - CXA3286R Example of Representative Characteristics Current consumption vs. Ambient temperature characteristics 120 120 Current consumption vs. Conversion rate characteristics Current consumption [mA] 115 Current consumption [mA] 115 fin = fCLK - 1kHz 4 DMUX mode CL = 5pF 110 110 105 105 100 -25 25 Ta - Ambient temperature [C] 75 100 0 80 Fc - Conversion rate [MSPS] 160 Analog input current vs. Analog input voltage characteristics 4 100 Reference current vs. Ambient temperature characteristics Analog input current [A] Reference current [mA] 3 4 VRT = 4V VRB = 2V 3 50 2 0 2 -25 25 Ta - Ambient temperature [C] 75 Analog input voltage [V] - 21 - CXA3286R SNR vs. Input frequency response 50 Error rate vs. Conversion rate characteristics 10-5 fin = fCLK - 1kHz 16 Error > 16LSB Error Rate [TPS] 40 10-6 SNR [dB] 10-7 30 Fc = 160MSPS 10-8 20 1 3 5 10 30 50 10-9 120 140 160 180 Input frequency [MHz] Fc - Conversion rate [MSPS] Maximum conversion rate vs. Ambient temperature characteristics Fc - Maximum conversion rate [MSPS] 180 fin = 170 fCLK - 1kHz 16 Error > 16LSB Error rate: 2 x 10-8 TPS 3 TTL output high level vs. VOCLP pin TTL output high level [V] TTL high level when VOCLP is open. 2 160 150 1 140 -25 25 Ta - Ambient temperature [C] 75 0.5 1 3 VOCLP pin voltage [V] 5 - 22 - CXA3286R Package Outline Unit: mm 48PIN LQFP (PLASTIC) 9.0 0.2 36 37 7.0 0.1 25 24 S (8.0) A 48 1 0.5 + 0.08 0.18 - 0.03 + 0.2 1.5 - 0.1 12 13 (0.22) + 0.05 0.127 - 0.02 0.13 M 0.1 0.1 0.1 0.5 0.2 S 0 to 10 0.5 0.2 NOTE: Dimension "" does not include mold protrusion. DETAIL A PACKAGE STRUCTURE PACKAGE MATERIAL SONY CODE EIAJ CODE JEDEC CODE LQFP-48P-L01 LQFP048-P-0707 LEAD TREATMENT LEAD MATERIAL PACKAGE MASS EPOXY RESIN SOLDER/PALLADIUM PLATING 42/COPPER ALLOY 0.2g NOTE : PALLADIUM PLATING This product uses S-PdPPF (Sony Spec.-Palladium Pre-Plated Lead Frame). - 23 - |
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