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(R) ISL59117 Data Sheet September 21, 2006 FN6278.0 Triple Channel Video Driver with LPF The ISL59117 is a triple channel reconstruction filter with a -3dB roll-off frequency of 9MHz. Operating from single supplies ranging from +2.5V to +3.6V and drawing only 3.9mA quiescent current, the ISL59117 is ideally suited for low power, battery-operated applications. Additionally, enable pins shut the part down in under 14ns. The ISL59117 is designed to meet the needs for very low power and bandwidth required in battery-operated communication, instrumentation, and modern industrial applications such as video on demand, cable set-top boxes, MP3 players, and HDTV. The ISL59117 is offered in a space-saving chipscale package guaranteed to a 0.57mm maximum height constraint and specified for operation from -40C to +85C temperature range. Features * 3rd order 9MHz reconstruction filter * 40V/s slew rate * Low supply current = 3.9mA * Power-down current less than 1A * Supplies from 2.5V to 3.6V * Rail-to-rail output * CSP package * Pb-free plus anneal available (RoHS compliant) Applications * Video amplifiers * Portable and handheld products * Communications devices Pinout ISL59117 (WLCSP) TOP VIEW 1 2 3 * Video on demand * Cable set-top boxes * Satellite set-top boxes * MP3 players A CIN B CVBSIN C EN CVBSOUT GND COUT * HDTV * Personal video recorder Block Diagram + YIN YIN VDD YOUT 5A 500mV 65mV - + x2 9MHz 65mV - + x2 YOUT CIN + CVBSIN 5A EN BIASING & CONTROL 9MHz COUT 9MHz 65mV - + x2 CVBSOUT Ordering Information PART NUMBER (Note) ISL59117IIZ-T7 PART MARKING 117Z TAPE AND REEL 7" TEMP. RANGE (C) -40 to +85 PACKAGE (Pb-Free) WLCSP PKG. DWG. # W3x3.9A NOTE: Intersil Pb-free plus anneal products employ special Pb-free material sets; molding compounds/die attach materials and 100% matte tin plate termination finish, which are RoHS compliant and compatible with both SnPb and Pb-free soldering operations. Intersil Pb-free products are MSL classified at Pb-free peak reflow temperatures that meet or exceed the Pb-free requirements of IPC/JEDEC J STD-020. 1 CAUTION: These devices are sensitive to electrostatic discharge; follow proper IC Handling Procedures. 1-888-INTERSIL or 1-888-468-3774 | Intersil (and design) is a registered trademark of Intersil Americas Inc. Copyright (c) Intersil Americas Inc. 2006. All Rights Reserved. All other trademarks mentioned are the property of their respective owners. ISL59117 Absolute Maximum Ratings (TA = +25C) Supply Voltage from VDD to GND . . . . . . . . . . . . . . . . . . . . . . . 4.2V Input Voltage . . . . . . . . . . . . . . . . . . . . . . . VDD +0.3V to GND -0.3V Continuous Output Current . . . . . . . . . . . . . . . . . . . . . . . . . . . 40mA Power Dissipation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . See Curves Operating Junction Temperature . . . . . . . . . . . . . . . . . . . . . . +125C ESD Classification Human Body Model . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3000V Machine Model . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 300V Storage Temperature . . . . . . . . . . . . . . . . . . . . . . . .-65C to +125C Ambient Operating Temperature . . . . . . . . . . . . . . . .-40C to +85C CAUTION: Stresses above those listed in "Absolute Maximum Ratings" may cause permanent damage to the device. This is a stress only rating and operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied. IMPORTANT NOTE: All parameters having Min/Max specifications are guaranteed. Typ values are for information purposes only. Unless otherwise noted, all tests are at the specified temperature and are pulsed tests, therefore: TJ = TC = TA Electrical Specifications PARAMETER INPUT CHARACTERISTICS VDD IDD IDD_OFF VY_CLAMP IY_DOWN IY_UP RY VCVBS_CLAMP ICVBS_DOWN ICVBS_UP RCVBS VC_CLAMP RC IC VY_SYNC VOLS AV VDD = 3.3V, TA = +25C, RL = 150 to GND, unless otherwise specified. CONDITIONS MIN TYP MAX UNIT DESCRIPTION Supply Voltage Range Quiescent Supply Current Shutdown Supply Current Y Input Clamp Voltage Y Input Clamp Discharge Current Y Input Clamp Charge Current Y Input Resistance CVBS Input Clamp Voltage CVBS Input Clamp Discharge current CVBS Input Clamp Charge current CVBS Input Resistance C Input Clamp Voltage C Input Resistance C Input Bias Current Y Input Sync Detect Voltage Output Level Shift Voltage Voltage Gain C-Y Channel Gain Mismatch C/Y-CVBS Channel Gain Mismatch DC Power Supply Rejection Output Voltage High Swing Output Short-Circuit Current Enable Input Current Disable Threshold Enable Threshold Shutdown Output Impedance EN = 0V DC EN = 0V, f = 4.5MHz VDD = 2.5V to 3.6V VIN = 2V, RL = 150 to GND VIN = 2V, to GND through 10 0V < VEN < 3.3V VIN = 0V, no load RL = 150 VIN = 500mV, EN = VDD, no load EN = 0V IY = -100A VY = 0.5V VY = -0.1V 0.5V < VY < 1V IY = -100A VCVBS = 0.5V VCVBS = -0.1V 0.5V < VCVBS < 1V VY = 0.05V, IC = 0A VY = 0.05V, 0.25V < VC < 0.75V VY = 0.3V 2.5 3.9 0.1 -30 3 -15 5 -3.4 10 -30 3 -15 5 -3.4 10 500 2.0 550 2.6 10 100 60 1.95 -1.75 -2.0 150 140 1.99 0.5 0.5 60 2.85 100 -0.2 3.2 145 0 3.6 6.5 0.5 10 7 -2.5 V mA A mV A mA M 10 7 -2.5 mV A mA M 700 3.0 mV k pA 200 200 2.04 1.75 2.0 mV mV V/V % % dB V mA AV_CY AV_CVBS PSRR VOH ISC IENABLE VIL VIH ROUT +0.2 0.8 A V V 2.0 5 7 3.4 8 k k 2 FN6278.0 September 21, 2006 ISL59117 Electrical Specifications PARAMETER AC PERFORMANCE BW0.1dB BW3dB 0.1dB Bandwidth -3dB Bandwidth Normalized Stopband Gain dG dP D/DT SNR TON TOFF +SR -SR tF tR Differential Gain Differential Phase Group Delay Variation Signal To Noise Ratio Enable Time Disable Time Positive Slew Rate Negative Slew Rate Fall Time Rise Time RL = 150, CL = 5pF RL = 150, CL = 5pF f = 27MHz NTSC and PAL NTSC and PAL f = 100kHz, 5MHz 100% white signal VIN = 500mV, VOUT to 1% VIN = 500mV, VOUT to 1% 20% to 80%, VIN = 1V step 80% to 20%, VIN = 1V step 2.5VSTEP, 80% - 20% 2.5VSTEP, 20% - 80% 30 -30 5 9 -24.2 0.10 0.5 5.4 65 200 14 40 -40 25 22 60 -60 MHz MHz dB % ns dB ns ns V/s V/s ns ns VDD = 3.3V, TA = +25C, RL = 150 to GND, unless otherwise specified. (Continued) CONDITIONS MIN TYP MAX UNIT DESCRIPTION Connection Diagram 3.3V 0.1F V DD + YIN Y (LUMINANCE) 0.1F 5A 500mV 65mV 9MHz 0.1F + CVBSIN CVBS (COMPOSITE) 0.1F 5A C OR TIE TO 3.3V BIASING & EN CONTROL 9MHz 65mV -+ x2 75 75 CVBSOUT CVBSOUT -+ x2 75 75 9MHz 65mV -+ x2 75 75 YOUT YOUT S-VIDEO CABLE CIN C (CHROMINANCE) COUT COUT 3 FN6278.0 September 21, 2006 ISL59117 Pin Descriptions PIN NUMBER A1 A2 A3 B1 B2 B3 C1 C2 C3 PIN NAME CIN GND COUT CVBSIN EN CVBSOUT YIN VDD YOUT Chrominance input Ground Chrominance output Composite Video input Enable Composite Video output Luminance Input Positive power supply Luminance output DESCRIPTION Typical Performance Curves 5 4 NORMALIZED GAIN (dB) 3 2 1 0 -1 -2 -3 -4 -5 100k 1M 10M FREQUENCY (Hz) 100M -0.1dB BW @ 3.8MHz NORMALIZED GAIN (dB) VDD = +3.3V RL = 150 5 0 -5 -10 -15 -20 -25 -30 -35 -40 100k -3dB BW @ 9MHz -30dB BW @ 27MHz VDD = +3.3V RL = 150 1M FREQUENCY (Hz) 10M 40M FIGURE 1. GAIN vs FREQUENCY -0.1dB FIGURE 2. GAIN vs FREQUENCY -3dB POINT 5 4 NORMALIZED GAIN (dB) 3 2 1 0 -1 -2 -3 -4 VDD = +3.3V RL = 150 4.0 3.5 3.0 VOUT (VP-P) VDD = +3.3V RL = 150 FIN = 100kHz CL = 27pF CL = 10pF CL = 470pF CL = 1000pF 1M 10M FREQUENCY (Hz) 100M 2.5 2.0 1.5 1.0 0.5 0.0 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 -5 100k VIN (VP-P) FIGURE 3. GAIN vs FREQUENCY FOR VARIOUS CLOAD FIGURE 4. MAXIMUM OUTPUT MAGNITUDE vs INPUT MAGNITUDE 4 FN6278.0 September 21, 2006 ISL59117 Typical Performance Curves (Continued) 270 180 90 PHASE () VDD = +3.3V RL = 150 -20 -30 -40 PSRR (dB) VDD = +3.3V -50 -60 -70 -80 0 -90 -180 -270 100k 1M 10M FREQUENCY (Hz) 100M -90 -100 100k 1M 10M FREQUENCY (Hz) 100M FIGURE 5. PHASE vs FREQUENCY FIGURE 6. PSRR vs FREQUENCY -40 -50 -60 PSRR (dB) VDD = +3.3V YIN to COUT -70 -80 -90 -100 -110 100k 1M FREQUENCY (Hz) CIN to YOUT 10M 50M FIGURE 7. OUTPUT IMPEDANCE vs FREQUENCY FIGURE 8. ISOLATION vs FREQUENCY 8 SUPPLY CURRENT (mA) VDD = +3.3V FIN = 1MHz 7 6 5 4 3 2 1 0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 NO LOAD NO INPUT SUPPLY VOLTAGE (V) FIGURE 9. MAXIMUM OUTPUT vs LOAD RESISTANCE FIGURE 10. SUPPLY CURRENT vs SUPPLY VOLTAGE 5 FN6278.0 September 21, 2006 ISL59117 Typical Performance Curves (Continued) 2.2 1.7 AMPLITUDE (V) 1.2 TRISE = 10.46ns 0.7 0.2 -0.3 -100 TFALL = 26.81ns VDD = +3.3V RL = 150 VOUT = 1VP-P AMPLITUDE (V) 0.5 0.4 0.3 0.2 0.1 0 -100 VDD = +3.3V RL = 150 VOUT = 200mVP-P TRISE = 27.85ns TFALL = 27.92ns 0 100 200 300 TIME (ns) 400 500 600 0 100 200 300 TIME (ns) 400 500 600 FIGURE 11. LARGE SIGNAL STEP RESPONSE FIGURE 12. SMALL SIGNAL STEP RESPONSE 2.5 VDD = +3.3V 2.0 RL = 150 AMPLITUDE (V) AMPLITUDE (V) 2.5 2.0 ENABLE SIGNAL 1.5 1.0 0.5 OUTPUT SIGNAL 0.0 -0.5 VDD = +3.3V RL = 150 -1.0 -20 -10 DISABLE SIGNAL 1.5 1.0 0.5 0.0 -0.5 -1.0 -100 -50 0 OUTPUT SIGNAL 50 TIME (ns) 100 150 200 0 10 TIME (ns) 20 30 FIGURE 13. ENABLE TIME FIGURE 14. DISABLE TIME -10 HARMONIC DISTORTION (dB) -10 HARMONIC DISTORTION (dB) -20 -30 -40 -50 -60 -70 VDD = +3.3V RL = 150 VOUT = 2VP-P THD 2nd THD -20 -30 -40 VDD = +3.3V RL = 150 FIN = 500kHz THD -50 -60 -70 -80 0.5 1.0 1.5 2.0 VOUT (VP-P) 2.5 3.0 3.5 2nd THD 3rd THD 3rd THD -80 1M 2M 3M 4M 5M 6M 7M FREQUENCY (Hz) 8M 9M 10M FIGURE 15. HARMONIC DISTORTION vs FREQUENCY FIGURE 16. HARMONIC DISTORTION vs OUTPUT VOLTAGE 6 FN6278.0 September 21, 2006 ISL59117 Typical Performance Curves (Continued) 16 -3dB BANDWIDTH (MHz) VDD = +3.3V RL = 150 14 12 10 8 6 4 2 20 VDD = +3.3V RL = 150 100 180 260 340 INPUT RESISTANCE () 420 500 FIGURE 17. GROUP DELAY vs FREQUENCY FIGURE 18. -3dB BANDWIDTH vs INPUT RESISTANCE 50 45 POSITIVE SLEW RATE SLEW RATE (V/s) VOUT = 2VP-P RL = 150 40 35 30 25 20 2.0 NEGATIVE SLEW RATE 2.5 3.0 3.5 SUPPLY VOLTAGE (V) 4.0 FIGURE 19. SLEW RATE vs SUPPLY VOLTAGE 100 NOISE FLOOR ( nV/ Hz ) 10 2 10kHz 4 6 8 1 100kHz 2 FREQUENCY (Hz) 4 6 8 1 1MHz 2 4 4.2MHz FIGURE 20. UNWEIGHTED NOISE FLOOR 7 FN6278.0 September 21, 2006 ISL59117 Typical Performance Curves (Continued) 1 POWER DISSIPATION (W) JEDEC JESD51-3 LOW EFFECTIVE THERMAL CONDUCTIVITY TEST BOARD POWER DISSIPATION (W) 1.4 1.2 1 0.8 0.6 0.4 0.2 0 JEDEC JESD51-7 HIGH EFFECTIVE THERMAL CONDUCTIVITY TEST BOARD 0.9 0.8 0.7 0.6 0.5 0.4 0.3 0.2 0.1 0 0 25 50 75 85 100 125 150 AMBIENT TEMPERATURE (C) 462mW WLCSP (3x3 BUMP) JA=216C/W 952mW WLCSP (3x3 BUMP) JA=105C/W 0 25 50 75 85 100 125 150 AMBIENT TEMPERATURE (C) FIGURE 21. PACKAGE POWER DISSIPATION vs AMBIENT TEMPERATURE FIGURE 22. PACKAGE POWER DISSIPATION vs AMBIENT TEMPERATURE Application Information The ISL59117 is a single-supply rail-to-rail triple (one s-video channel and one composite channel) video amplifier with internal sync tip clamps, a typical -3dB bandwidth of 9MHz and slew rate of about 40V/s. This part is ideally suited for applications requiring high composite and s-video performance with very low power consumption. As the performance characteristics and features illustrate, the ISL59117 is optimized for portable video applications. The Sallen Key Low Pass Filter The Sallen Key is a classic low pass configuration. This provides a very stable low pass function, and in the case of the ISL59117, a three-pole roll-off at 9MHz. The three-pole function is accomplished with an RC low pass network placed in series with and before the Sallen Key. The first pole is formed by an RC network, with poles two and three generated with a Sallen Key, creating a nice three-pole roll-off at 9MHz. Output Coupling The ISL59117 can be AC or DC coupled to its output. When AC coupling, a 220F coupling capacitor is recommended to ensure that low frequencies are passed, preventing video "tilt" or "droop" across a line. The ISL59117's internal sync clamp makes it possible to DC couple the output to a video load, eliminating the need for any AC coupling capacitors, saving board space, cost, and eliminating any "tilt" or offset shift in the output signal. The trade off is larger supply current draw, since the DC component of the signal is now dissipated in the load resistor. Typical load current for AC coupled signals is 5mA compared to 10mA for DC coupling. Internal Sync Clamp Embedded video DACs typically use ground as their most negative supply. This places the sync tip voltage at a minimum of 0V. Presenting a 0V input to most single supply amplifiers will saturate the output stage of the amplifier resulting in a clipped sync tip and degraded video image. The ISL59117 features an internal sync clamp and offset function that level shifts the entire video signal to the optimum level before it reaches the amplifiers' input stage. These features also help avoid saturation of the output stage of the amplifier by setting the signal closer to the best voltage range. The simplified block diagram on the front page shows the basic operation of the ISL59117's sync clamp. The Y and CVBS inputs' AC-coupled video sync signal is pulled negative by a current source at the input. When the sync tip goes below the comparator threshold, the comparator output goes high, pulling up on the input through the diode, forcing current into the coupling capacitor until the voltage at the input is again 0V, and the comparator turns off. This forces the sync tip clamp to always be 0V, setting the offset for the entire video signal. The C channel is slaved to the Y channel and clamped to a 500mV level. Output Drive Capability The ISL59117 does not have internal short circuit protection circuitry. If the output is shorted indefinitely, the power dissipation could easily overheat the die or the current could eventually compromise metal integrity. Maximum reliability is maintained if the output current never exceeds 40mA. This limit is set by the design of the internal metal interconnect. Note that for transient short circuits, the part is robust. Short circuit protection can be provided externally with a back match resistor in series with the output placed close as possible to the output pin. In video applications this would be a 75 resistor and will provide adequate short circuit protection to the device. Care should still be taken not to stress the device with a short at the output. 8 FN6278.0 September 21, 2006 ISL59117 Power Dissipation With the high output drive capability of the ISL59117, it is possible to exceed the +125C absolute maximum junction temperature under certain load current conditions. Therefore, it is important to calculate the maximum junction temperature for an application to determine if load conditions or package types need to be modified to assure operation of the amplifier in a safe operating area. The maximum power dissipation allowed in a package is determined according to: T JMAX - T AMAX PD MAX = ------------------------------------------- JA Power Supply Bypassing Printed Circuit Board Layout As with any modern operational amplifier, a good printed circuit board layout is necessary for optimum performance. Lead lengths should be as short as possible. The power supply pin must be well bypassed to reduce the risk of oscillation. For normal single supply operation, a single 4.7F tantalum capacitor in parallel with a 0.1F ceramic capacitor from VS+ to GND will suffice. Printed Circuit Board Layout For good AC performance, parasitic capacitance should be kept to minimum. Use of wire wound resistors should be avoided because of their additional series inductance. Use of sockets should also be avoided if possible. Sockets add parasitic inductance and capacitance that can result in compromised performance. Where: TJMAX = Maximum junction temperature TAMAX = Maximum ambient temperature JA = Thermal resistance of the package The maximum power dissipation actually produced by an IC is the total quiescent supply current times the total power supply voltage, plus the power in the IC due to the load, or: for sourcing: V OUT PD MAX = V S x I SMAX + ( V S - V OUT ) x --------------R L for sinking: PD MAX = V S x I SMAX + ( V OUT - V S ) x I LOAD Where: VS = Supply voltage ISMAX = Maximum quiescent supply current VOUT = Maximum output voltage of the application RLOAD = Load resistance tied to ground ILOAD = Load current 9 FN6278.0 September 21, 2006 ISL59117 Wafer Level Chip Scale Package (WLCSP) E W3x3.9A 3x3 ARRAY 9 BALL WAFER LEVEL CHIP SCALE PACKAGE (For ISL59116, ISL59117 Only) SYMBOL A MILLIMETERS 0.62 +0.05 -0.08 0.24 0.025 0.38 REF. 0.32 0.03 0.30 REF. 1.45 0.05 1.00 BASIC 1.45 0.05 1.00 BASIC 0.50 BASIC 0.00 BASIC 9 NOTES 3 Rev. 1 6/06 PIN A1 ID AREA D A1 A2 b bb D TOP VIEW bb D1 E E1 A2 A A1 b SIDE VIEW e SD N NOTES: 1. Dimensions are in Millimeters. 2. Dimensioning and tolerancing conform to ASME 14.5M-1994. 3. Symbol "N" is the actual number of solder balls. 4. Reference JEDEC MO-211-C, variation DD. SD D1 E1 C B A 1 2 3 b BOTTOM VIEW All Intersil U.S. products are manufactured, assembled and tested utilizing ISO9000 quality systems. Intersil Corporation's quality certifications can be viewed at www.intersil.com/design/quality Intersil products are sold by description only. Intersil Corporation reserves the right to make changes in circuit design, software and/or specifications at any time without notice. Accordingly, the reader is cautioned to verify that data sheets are current before placing orders. Information furnished by Intersil is believed to be accurate and reliable. However, no responsibility is assumed by Intersil or its subsidiaries for its use; nor for any infringements of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of Intersil or its subsidiaries. For information regarding Intersil Corporation and its products, see www.intersil.com 10 FN6278.0 September 21, 2006 |
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