18-Channel Gamma Buffer with Regulator ADD8708 FEATURES FUNCTIONAL BLOCK DIAGRAM MASK-PROGRAMMABLE REGULATOR RESISTORS FB VREG OUT VDD VDD 700* GND 1.2V 700* GAMMA BUFFERS + - VOUT18 VIN18 700* VOUT17 VIN17 700* VOUT16 VIN16 700* APPLICATIONS LCD TV panels LCD monitor panels VOUT15 VIN15 700* VOUT14 VIN14 700* VOUT13 VIN13 GENERAL DESCRIPTION The ADD8708 is an 18-channel integrated gamma reference for use in high resolution LCD TV and monitors panels. The output buffers feature high current drive and low offset voltage to provide an accurate and stable gamma curve. The top nine channels swing to VDD; the lower nine channels swing to GND. Integrating the gamma setup resistors drastically reduces the external component count while increasing the gamma curve accuracy. To accommodate multiple column drivers and panel architectures, the ADD8708 is mask programmable to a 0.2% resolution using the on-chip 500 resistor string. An on-board voltage regulator provides a fixed input for the resistor string, isolating the gamma curve from the supply ripple. The ADD8708 is specified over the temperature range of -40C to +105C and comes in both a 48-lead, Pb-free, lead-frame chip-scale package and a Pb-free, low-profile, quad flat package. 700* VOUT12 VIN12 700* VOUT11 VIN11 700* VOUT10 VIN10 700* VOUT9 VIN9 700* VOUT8 VIN8 700* VOUT7 VIN7 700* VOUT6 VIN6 700* VOUT5 VIN5 700* VOUT4 VIN4 700* VOUT3 VIN3 700* VOUT2 VIN2 700* VOUT1 VIN1 MASK-PROGRAMMABLE RESISTOR STRING *ESD PROTECTION RESISTORS GND GND 04614-001 18 precision gamma reference outputs Mask-programmable gamma resistors: 0.2% resolution and 0.1% accuracy Mask-programmable voltage regulator: 0.4% accuracy Upper 9 buffers swing to VDD Lower 9 buffers swing to GND Single-supply operation: 7.5 V to 16.5 V Gamma current drive: 15 mA per channel Peak output current: 150 mA Output voltage stable under load conditions Pin-to-pin compatible with ADD8709 48-lead, Pb-free LQFP and LFCSP Figure 1. 48-Lead LQFP or LFCSP 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 rights 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: 781.326.8703 (c) 2004 Analog Devices, Inc. All rights reserved. ADD8708 TABLE OF CONTENTS Electrical Characteristics ................................................................. 3 Absolute Maximum Ratings............................................................ 4 ESD Caution.................................................................................. 4 Pin Configuration and Function Descriptions............................. 5 Typical Performance Characteristics ............................................. 7 Application Notes ........................................................................... 10 Tap Point Selection..................................................................... 10 Voltage Regulator ....................................................................... 11 Maximum Power Dissipation ................................................... 11 Land Pattern................................................................................ 11 Operating Temperature Range ................................................. 12 Typical Applications Circuit.......................................................... 14 Tap Point and Regulator Voltage Request Form......................... 15 Outline Dimensions ....................................................................... 16 Ordering Guide........................................................................... 16 REVISION HISTORY 10/04--Revision 0: Initial Version Rev. 0 | Page 2 of 16 ADD8708 ELECTRICAL CHARACTERISTICS VDD = 16 V, TA @ 25C, unless otherwise noted. Table 1. Parameter GAMMA CURVE CHARACTERISTICS Accuracy Programming Resolution Total Resistor String BUFFER CHARACTERISTICS OUTPUTS Output Voltage Range (Ch18 to Ch10) Output Voltage Range (Ch9 to Ch1) Output vs. Load (Ch18, Ch17, Ch2, Ch1) Output vs. Load (Ch16 to Ch3) INPUTS Offset Voltage Offset Voltage Drift Input Bias Current Input Voltage Range (Ch18 to Ch10) Input Voltage Range (Ch9 to Ch1) DYNAMIC PERFORMANCE Slew Rate Bandwidth Settling Time to 0.1% Phase Margin Power Supply Rejection Ratio SR BW tS o PSRR VOLTAGE REGULATOR Programmable Range Initial Regulator Accuracy Dropout Voltage VREG OUT VACC VDO Line Regulation Load Regulation Maximum Load Current Feedback Reference Voltage Feedback Input Bias Current Symbol Conditions RACC1 RRES RTOTAL 500 segments VOUT VOUT VOUT2 VOUT2 IL = 100 A IL = 100 A IL = 20 mA IL = 5 mA VOS VOS/T IB VIN VIN REGLINE REGLOAD IO VREF IB FB Min Typ Max Unit 0.1 0.2 15 0.4 % % k VDD VDD - 1.4 V V mV mV 15 mV V/C A V V 1.4 0 15 5 5 20 0.5 -40C TA +105C -40C TA +105C 1.4 0 RL = 10 k, CL = 200 pF -3 dB, RL = 10 k, CL = 200 pF 1 V, RL = 10 k, CL = 200 pF RL = 10 k, CL = 200 pF VDD = 7 V to 17 V, -40C TA +105C 4 68 6 4.5 1.1 55 90 5 No load; VREG OUT = 14.4V IL = 100 A IL = 5 mA VIN = 8.5 V to 16.5 V, VOUT = 8 V IO = 100 A to 10 mA -40C TA +105C -40C TA +105C SYSTEM ACCURACY Total Error3, 4 VTotal Error -40C TA +105C POWER SUPPLY Supply Voltage Supply Current VDD ISY No load; -40C TA +105C 0.4 100 310 0.01 0.02 V/s MHz s Degrees dB VDD - 0.6 1.5 150 350 0.20 0.10 5 -150 150 V nA 0.5 3 % 9.5 16 16 V mA Gamma curve accuracy includes resistor matching and buffer errors, but excludes the regulator error. VOUT is the shift from the desired output voltage under the specified current load. Total error is the difference between the designed and actual output voltage divided by the actual regulator output voltage or full-scale voltage. 4 Total error includes regulator error, resistor string error, bias current effects, and buffer offset voltage. 2 3 Rev. 0 | Page 3 of 16 V % mV mV %/V %/mA mA 1.2 10 7.5 1 1.5 VDD VDD - 1.4 ADD8708 ABSOLUTE MAXIMUM RATINGS Table 2. Parameter Supply Voltage (VDD) Input Voltage Storage Temperature Range Operating Temperature Range1 Junction Temperature Range Lead Temperature Range (Soldering, 60 sec) ESD Tolerance (HBM) ESD Tolerance (MM) Rating 18 V -0.5 V to VDD -65C to +150C -40C to +105C -65C to +150C 300C 1500 V 200 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 sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability. Table 3. Package Characteristics Package Type LFCSP (CP) LQFP (ST) JA2 28.3 N/A JA3 47.7 74.57 Unit C/W C/W 1 See the Application Notes section. JA for exposed pad soldered to JEDEC 4-layer board. 3 JA for exposed pad not soldered down. 2 ESD CAUTION ESD (electrostatic discharge) sensitive device. Electrostatic charges as high as 4000 V readily accumulate on the human body and test equipment and can discharge without detection. Although this 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. Rev. 0 | Page 4 of 16 ADD8708 VOUT15 VOUT14 VOUT13 VDD GND VOUT12 VOUT11 46 45 44 43 42 41 40 39 38 37 5 32 VDD VIN17 6 ADD8708 31 GND VIN16 7 TOP VIEW (Not to Scale) 30 VOUT6 VIN15 8 29 VOUT5 VIN14 9 28 VOUT4 VIN13 10 27 VOUT3 VIN12 11 26 VOUT2 VIN11 12 25 VOUT1 13 14 15 16 17 18 19 20 21 22 23 24 VDD VOUT7 VIN18 GND 33 VIN1 4 VIN2 VOUT8 VREG OUT VIN3 34 VIN4 3 VIN5 VOUT9 VDD VIN6 35 VIN7 VOUT10 2 VIN8 36 GND VIN9 1 VIN10 REGFB 04614-002 VOUT16 47 VOUT18 GND 48 VOUT17 VDD PIN CONFIGURATION AND FUNCTION DESCRIPTIONS Figure 2. Pin Configuration Table 4. Pin Function Descriptions Pin No. 1 Name REGFB 2 3 4 GND VDD VREG OUT 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 VIN18 VIN17 VIN16 VIN15 VIN14 VIN13 VIN12 VIN11 VIN10 VIN9 VIN8 VIN7 VIN6 VIN5 VIN4 VIN3 VIN2 VIN1 GND VDD 1 Description Regulator Feedback. Compares a percentage of the regulator output to the internal 1.2 V voltage reference. Internal resistors are used to program the desired regulator output voltage. Ground. Normally 0 V. Supply Voltage. Normally 16 V. Regulator output voltage. Provides reference voltage to resistor string and is internally connected to the top of the resistor string. Buffer inputs. Normally floating.1 Ground. Normally 0 V. Supply Voltage. Normally 16 V. External resistors can be added to modify the internal resistor string to change the gamma voltage. An external resistor calculator is available upon request from your local sales office. Rev. 0 | Page 5 of 16 ADD8708 Pin No. 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 Name VOUT1 VOUT2 VOUT3 VOUT4 VOUT5 VOUT6 GND VDD VOUT7 VOUT8 VOUT9 VOUT10 VOUT11 VOUT12 GND VDD VOUT13 VOUT14 VOUT15 VOUT16 VOUT17 VOUT18 GND VDD Description Buffer Outputs. These buffers can swing to ground. Ground. Normally 0 V. Supply voltage. Normally 16 V. Buffer Output. These buffers can swing to ground. Buffer Output. These buffers can swing to VDD. Ground. Normally 0 V. Normally 16 V. Buffer Outputs. These buffers can swing to VDD. Ground. Normally 0 V. Supply voltage. Normally 16 V. Rev. 0 | Page 6 of 16 ADD8708 TYPICAL PERFORMANCE CHARACTERISTICS 20 ISINK = 25mA 15 25 ISINK = 15mA 0 ILOAD = 0mA -5 -10 -15 -20 ISOURCE = 25mA -30 -35 -20 -10 ISOURCE = 15mA ISOURCE = 5mA 0 10 20 30 40 50 60 70 TEMPERATURE (C) 80 CH3 SINK CH9 SINK 10 5 1 10 LOAD CURRENT (mA) 25 OUTPUT VOLTAGE ERROR (mV) 25 CH17 SOURCE 20 CH18 SOURCE 15 10 CH18 SINK 04614-004 5 CH17 SINK 1 10 LOAD CURRENT (mA) 20 CH1 SOURCE 15 CH1 SINK 5 1 10 LOAD CURRENT (mA) 100 Figure 7. Output Voltage Error vs. Load Current (Channels 1 and 2) 11 30 10V PULSE 120pF 320pF 520pF 1nF 10nF 10 25 9 8 AMPLITUDE (V) 20 15 10 CH10 SOURCE 6 5 4 3 CH10 SINK 2 5 CH16 SINK 1 10 LOAD CURRENT (mA) 7 1 0 -200 100 Figure 5. Output Voltage Error vs. Load Current (Channels 10 and 16) 04614-008 CH16 SOURCE 04614-005 OUTPUT VOLTAGE ERROR (mV) CH2 SOURCE CH2 SINK 10 0 0.1 100 Figure 4. Output Voltage Error vs. Load Current (Channels 17 and 18) 0 0.1 100 Figure 6. Output Voltage Error vs. Load Current (Channels 3 and 9) 30 OUTPUT VOLTAGE ERROR (mV) CH9 SOURCE 15 0 0.1 90 100 110 120 Figure 3. Output Voltage Error vs. Temperature 0 0.1 CH3 SOURCE 04614-007 -25 20 04614-006 OUTPUT VOLTAGE ERROR (mV) 5 04614-003 OUTPUT VOLTAGE ERROR (mV) ISINK = 5mA 10 0 200 400 600 800 1000 1200 1400 1600 1800 TIME (ns) Figure 8. Gamma Buffers Transient Load Response vs. Capacitive Loading Rev. 0 | Page 7 of 16 1000 0 900 100 800 200 DROPOUT VOLTAGE (mV) 700 600 500 400 300 300 400 500 600 700 04614-009 100 0 -0.30 04614-012 800 200 900 1000 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 OUTPUT CURRENT (mA) -0.18 -0.10 -0.02 0.06 0.14 0.22 0.30 GAMMA OUTPUT ERROR DUE TO OFFSET AND RESISTOR MATCHING (% OF FS) Figure 9. Gamma Output Voltage Error Figure 12. Dropout Voltage vs. Output Current 800 0.3 MAX ERROR EACH STEP 750 TYPICAL UNIT B DROPOUT VOLTAGE (mV) TYPICAL UNIT C ERROR (%) 0.1 0 TYPICAL UNIT A -0.1 04614-010 MIN ERROR EACH STEP -0.3 1 2 3 4 5 6 7 8 OUTPUT CHANNEL 9 10 11 600 550 500 450 5mA 400 350 300 250 200 150 100 -0.2 0 10mA 700 650 0.2 0mA 50 0 -25 -15 -5 12 04614-013 NUMBER OF AMPLIFIERS ADD8708 5 15 25 35 45 55 65 TEMPERATURE (C) 75 85 95 105 115 Figure 13. Dropout Voltage vs. Temperature Figure 10. Gamma Output Error per Channel (920 Parts) 14.5 15 14 14.4 13 REGULATOR OUTPUT (V) 11 9 ILOAD = 0mA ILOAD = 5mA 8 7 6 5 ILOAD = 10mA 4 3 0 C 14.2 +25C 14.1 +55C 14.0 +85C 13.9 +95C 13.8 +105C 2 1 0 17 16 15 14 13 12 11 10 9 8 7 6 INPUT VOLTAGE (V) 5 4 3 2 1 04614-014 10 -20C 14.3 04614-011 OUTPUT VOLTAGE (V) 12 13.7 13.6 0 0 2 4 6 8 10 12 14 LOAD CURRENT (mA) 16 18 Figure 14. Regulator Output vs. ILOAD over Temperature Figure 11. Dropout Characteristics Rev. 0 | Page 8 of 16 20 ADD8708 12 14.45 11 0mA 10 5mA SUPPLY CURRENT (mA) 14.35 14.30 10mA 14.25 0 10 20 30 40 50 60 70 TEMPERATURE (C) 80 8 7 6 5 4 3 2 04712-0-021 14.20 -20 -10 9 04614-018 REGULATOR OUTPUT (V) 14.40 1 0 0 90 100 110 Figure 15. Regulator Output vs. Temperature 2 4 6 8 10 12 SUPPLY VOLTAGE (V) 14 16 18 Figure 18. Supply Current vs. Supply Voltage 18 11.0 CLOAD = 1F -200 -400 14 TIME (100s/DIV) Figure 16. Regulator Line Transient Response 0 -20 -40 04614-017 LOAD CURRENT (mA) 20 OUTPUT VOLTAGE CHANGE (mV) 40 5 10.6 10.4 -20 0 20 40 60 TEMPERATURE (C) 80 Figure 19. Supply Current vs. Temperature CLOAD = 1F 0.1 10.7 10.5 04614-016 15 10.8 04614-019 0 16 SUPPLY CURRENT (mA) INPUT VOLTAGE (V) 200 10.9 OUTPUT VOLTAGE CHANGE (mV) 400 17 TIME (100s/DIV) Figure 17. Regulator Load Transient Response Rev. 0 | Page 9 of 16 100 120 ADD8708 APPLICATION NOTES TAP POINT 500 TAP POINT 3 TAP POINT 499 TAP POINT 2 TAP POINT 498 TAP POINT 1 TAP POINT 497 EACH R = 30 TYPICALLY The ADD8708 uses a single resistor string consisting of 500 individual elements. The tap points are mask programmable and completely independent of each other. See the Tap Point and Regulator Voltage Request Form in this data sheet. VREG OUT 500-TPX VINX Figure 22. Gamma Buffers Tap Point Circuit Tap point voltages can be derived from the following equation: VOUT X = In a typical panel application, the selected source drivers have an internal gamma curve that is not ideal for the specific panel (see Figure 21). The ADD8708 allows the gamma curve in the source drivers to be adjusted appropriately, and also ensures that all the source drivers have the same gamma curve. VOUT18 VOUT17 VOUT16 VOUT15 VOUT14 VOUT13 VOUT12 VOUT11 VOUT10 VOUT9 VOUT8 VOUT7 VOUT6 VOUT5 VOUT4 VOUT3 VOUT2 VOUT1 14 12 GAMMA VOLTAGE (V) OUT Table 5. Typical Mask Implementation1 VDD = 16 V, VREG OUT = 14.4 V, 0 X 500 16 10 8 ORIGINAL GAMMA CURVE IN SOURCE DRIVERS 6 PANEL GAMMA CURVE CORRECTED BY ADD8708 4 04614-021 0 TPX x VREG 500 where TPX is the desired tap point for the Xth channel. Figure 20. 500 Mask-Programmable Resistor String 2 VOUTX TPX 04614-020 TAP POINT 4 TAP POINT SELECTION 04614-022 The ADD8708 is a mask-programmable gamma reference generator that allows source drivers to be optimized for the different combinations of liquid crystals, glass sizes, etc. in large LCD panels. It generates 18 gamma reference outputs that can be mask-programmed in 0.2% increments using the 500 matched internal resistors (see Figure 20), so that every point on the curve can be targeted within 0.1% of the desired value. GAMMA REFERENCE INPUT POINTS Figure 21. Original and Corrected Gamma Curves The matching and tracking accuracy of the internal resistors is typically 0.1% with worst-case deviation from the desired curve within 0.4% of the ideal gamma curve, over temperature. Tap Point (X) 500 396 369 361 354 350 341 317 299 225 211 177 167 163 154 146 118 7 Voltage 14.400 11.405 10.627 10.397 10.195 10.080 9.821 9.130 8.611 6.480 6.077 5.098 4.810 4.694 4.435 4.205 3.398 0.202 Units V V V V V V V V V V V V V V V V V V _______________________________ 1 ADD8708 release samples do not have these typical values. The values on the samples are nonmonotonic and can be provided upon request. The ADD8708 also includes a low-dropout linear regulator to provide a stable reference level for the gamma curve for optimum panel performance. Rev. 0 | Page 10 of 16 ADD8708 VOLTAGE REGULATOR LAND PATTERN The on-board voltage regulator provides a regulated voltage to the resistor chain to provide stable gamma voltages. The LFCSP package comes with a thermal pad. Soldering down this thermal pad dramatically improves the heat dissipation of the package. It is necessary to attach vias that connect the soldered thermal pad to another layer on the board. This provides an avenue to dissipate the heat away from the part. Without vias, the heat is isolated directly under the part. The two mask-programmable internal resistors, R1 and R2, and a reference voltage set the output of the regulator. The typical values of these parts are shown in Figure 23. In addition, see the Tap Point and Regulator Voltage Request Form in this data sheet. R2 55k R1 5k + - 04614-023 VREG OUT VREF 1.2V Figure 23. Voltage Regulator The internal resistors have a typical accuracy of 0.1%. External resistors can be used to adjust the regulator voltage; however, it is not recommended. Please contact your local sales office for further details. Subdivide the solder paste, or stencil layer, for the thermal pad to reduce solder balling and splatter. It is not critical how the subdivisions are arranged, as long as the total coverage of the solder paste for the thermal pad is greater than 50%. The land pattern is critical to heat dissipation. A suggested land pattern is shown in Figure 22. The thermal pad is attached to the substrate. In the ADD8708, the substrate is connected to VDD. To be electrically safe, the thermal pad should be soldered to an area on the board that is electrically isolated or connected to VDD. Attaching the thermal pad to ground adversely affects the performance of the part. MAXIMUM POWER DISSIPATION The maximum safe power dissipation in the ADD8708 package is limited by the associated rise in junction temperature (TJ) on the die. At approximately 150C, the glass transition temperature, the properties of the plastic change. Even temporarily exceeding this temperature limit may change the stresses that the package exerts on the die, permanently shifting the parametric performance of the ADD8708. Exceeding a junction temperature of 175C for an extended period can result in changes in the silicon devices, potentially causing failure. Rev. 0 | Page 11 of 16 ADD8708 OPERATING TEMPERATURE RANGE The junction temperature is as follows: VDD x IDQ = 16 V x 15 mA = 0.240 W (VDD - VREG OUT) x ILOAD = (16 V - 14.4 V) x 5 mA = 0.008 W PDIS = 0.240 W + 0.731 W + 0.008 W =0.979 W TJ = TAMB + JA x PDIS where: TAMB = ambient temperature. JA = junction-to-ambient thermal resistance, in C/watt. PDIS = power dissipated in the device, in watts. Example 1 Exposed pad soldered down with via JA = 28.3C/W: TJ = 95C + (28.3C/W) x (0.979 W) = 122.7C For the ADD8708, PDIS can be calculated by this equation: PDIS = VDD x IDQ + (IOUT X(+) x (VDD - VOUT X)) + (-IOUT X(-) x VOUT X) + (VDD - VREG OUT ) x ILOAD where: VDD x IDQ = nominal system power requirements. IOUT X(+) x (VDD - VOUT X)= positive-current amplifier load power dissipation (current comes from VDD). -IOUT X(-) x VOUT X = negative-current amplifier load power dissipation (current goes to GND). (VDD - VREG OUT) x ILOAD = regulator load power dissipation. In this example, TAMB = 95C. To calculate PDIS, assume the values in Table 6. where 150C is the maximum junction temperature that is guaranteed before the part breaks down. The maximum process limit is 125C. Because TJ is < 150C and < 125C, this example demonstrates a condition where the part should perform within process limits. Example 2 Exposed pad not soldered down JA = 47.7C/W: TJ = 95C + (47.7C/W) x (0.979 W) = 141.7C In this example, TJ is < 150C but > 125C. Although the part should not exhibit any damage in this situation, the process limits have been exceeded. The part may no longer operate as intended. Table 6. VOUT18 VOUT17 VOUT16 VOUT15 VOUT14 VOUT13 VOUT12 VOUT11 VOUT10 VOUT9 VOUT8 VOUT7 VOUT6 VOUT5 VOUT4 VOUT3 VOUT2 VOUT1 VOUT X (V) 14.400 11.405 10.627 10.397 10.195 10.080 9.821 9.130 8.611 6.480 6.077 5.098 4.810 4.694 4.435 4.205 3.398 0.202 IOUT X (mA) 4.3 5.2 -4.4 7.3 7.6 -3.9 8.3 7.9 -4.5 -4.2 5.6 -3.3 -6.9 5.7 3.5 9.6 -9.5 -7.2 (IOUT X(+) x (VDD - VOUT X)) + (-IOUT X(-) x VOUT X) P (W) 0.00688 0.0239 0.0468 0.0409 0.0441 0.0393 0.0513 0.0543 0.0389 0.0272 0.0556 0.0168 0.0332 0.0644 0.0405 0.113 0.0323 0.00145 0.731 These examples show that soldering down the exposed pad is important for proper heat dissipation. Under the same powerup and loading conditions, the unsoldered part has a higher temperature than the soldered part. Therefore, it is strongly advised that the exposed pad be soldered to VDD to maintain part integrity. Rev. 0 | Page 12 of 16 ADD8708 7.31mm HEAT SINK SOLDER PASTE AREA 5.40mm 1.90mm 1.60mm 5.78mm 5.93mm 0.69mm 0.5mm 0.075mm 0.33mm DIAMETER THERMAL VIA 0.28mm 04614-024 0.075mm 1.60mm Figure 24. 48-Pin LFCSP (CP-48) Land Pattern--Dimensions Shown in Millimeters Notes: 1. Areas in black represent the board metallization. 2. Areas in white represent the solder mask and vias. 3. Hatched area is for the heat sink solder paste. 4. The thermal pad is electrically active. The solder mask opening should be 0.150 mm larger than the pad size, resulting in 0.075 mm of clearance between the copper pad and solder mask. Rev. 0 | Page 13 of 16 ADD8708 TYPICAL APPLICATIONS CIRCUIT VREG OUT VDD NORMALLY FB OPEN 0.1F 700 55k 5k 1.2V VIN18 VIN17 VIN16 VIN15 VIN14 VIN13 VIN12 VIN11 NORMALLY OPEN VIN10 VIN9 VIN8 VIN7 VIN6 VIN5 VIN4 VIN3 VIN2 VIN1 + - VOLTAGE REGULATOR GAMMA BUFFERS 0 TP18 = 500 700 3.12k TP17 = 396 700 810 TP16 = 369 700 240 TP15 = 361 700 210 TP14 = 354 700 120 TP13 = 350 700 270 TP12 = 341 700 720 TP11 = 317 700 540 TP10 = 299 700 2.22k TP9 = 225 700 420 TP8 = 211 700 1.02k TP7 = 177 700 300 TP6 = 167 700 120 TP5 = 163 700 270 TP4 = 154 700 240 TP3 = 146 700 840 TP2 = 118 700 3.33k TP1 = 7 700 VOUT18 14.400V VOUT17 11.405V VOUT16 10.627V VOUT15 10.397V VOUT14 10.195V VOUT13 10.080V VOUT12 9.821V VOUT11 9.130V VOUT10 8.611V VOUT9 6.480V VOUT8 6.077V VOUT7 5.098V VOUT6 4.810V VOUT5 4.694V VOUT4 4.435V VOUT3 4.205V VOUT2 3.398V VOUT1 0.202V 210 ESD PROTECTION RESISTORS GND GND Figure 25. Typical Application Circuit Rev. 0 | Page 14 of 16 GAMMA 18 GAMMA 17 GAMMA 16 GAMMA 15 GAMMA 14 GAMMA 13 GAMMA 12 GAMMA 11 GAMMA 10 GAMMA 9 GAMMA 8 GAMMA 7 GAMMA 6 GAMMA 5 GAMMA 4 GAMMA 3 GAMMA 2 GAMMA 1 GAMMA 18 GAMMA 17 GAMMA 16 GAMMA 15 GAMMA 14 GAMMA 13 GAMMA 12 GAMMA 11 GAMMA 10 GAMMA 9 GAMMA 8 GAMMA 7 GAMMA 6 GAMMA 5 GAMMA 4 GAMMA 3 GAMMA 2 GAMMA 1 GAMMA 18 GAMMA 17 GAMMA 16 GAMMA 15 GAMMA 14 GAMMA 13 GAMMA 12 GAMMA 11 GAMMA 10 GAMMA 9 GAMMA 8 GAMMA 7 GAMMA 6 GAMMA 5 GAMMA 4 GAMMA 3 GAMMA 2 GAMMA 1 04614-025 ESD PROTECTION RESISTOR 16V 0.1F ADD8708 TAP POINT AND REGULATOR VOLTAGE REQUEST FORM REGULATOR SECTION--VREG OUT To ensure correct regulator operation VDD must exceed VREG by 600 mV minimum--that is, a VREG = 14.4 V requires a minimum VDD = 15.0 V. Parameter VREG OUT Value (6.9 V - 15.4 V) TAP POINT SECTION Gamma output voltages are calculated using the following formula: VOUT = TP x VREG OUT 500 A Microsoft(R) Excel spreadsheet is available which automatically calculates the best tap point based on VREG OUT and the desired output voltages for each gamma output. Output VOUT18 VOUT17 VOUT16 VOUT15 VOUT14 VOUT13 VOUT12 VOUT11 VOUT10 VOUT9 VOUT8 VOUT7 VOUT6 VOUT5 VOUT4 VOUT3 VOUT2 VOUT1 Tap Point CUSTOMER INFORMATION Name: ____________________________________________ Company: ____________________________________________ Address: ____________________________________________ ____________________________________________ Date: ____________________________________________ Please return this form to your local sales office. Rev. 0 | Page 15 of 16 ADD8708 OUTLINE DIMENSIONS 7.00 BSC SQ 0.60 MAX 37 36 PIN 1 INDICATOR TOP VIEW 1 EXPOSED PAD 5.25 5.10 SQ 4.95 (BOTTOM VIEW) 25 24 12 13 0.25 MIN 5.50 REF 0.80 MAX 0.65 TYP 12 MAX PIN 1 INDICATOR 48 6.75 BSC SQ 0.50 0.40 0.30 1.00 0.85 0.80 0.30 0.23 0.18 0.60 MAX 0.05 MAX 0.02 NOM 0.50 BSC 0.20 REF SEATING PLANE COPLANARITY 0.08 COMPLIANT TO JEDEC STANDARDS MO-220-VKKD-2 Figure 26. 48-Lead Lead Frame Chip Scale Package [LFCSP] 7 mm x 7 mm Body (CP-48) Dimensions shown in millimeters 0.75 0.60 0.45 9.00 BSC SQ 1.60 MAX 37 48 36 1 SEATING PLANE 1.45 1.40 1.35 0.15 0.05 10 6 2 SEATING PLANE PIN 1 7.00 BSC SQ TOP VIEW 0.20 0.09 7 3.5 0 0.08 MAX COPLANARITY (PINS DOWN) VIEW A 25 12 13 0.50 BSC 24 0.27 0.22 0.17 VIEW A ROTATED 90 CCW COMPLIANT TO JEDEC STANDARDS MS-026BBC Figure 27. 48-Lead Low Profile Quad Flat Package [LQFP] (ST-48) Dimensions shown in millimeters ORDERING GUIDE Model1 ADD8708WCPZ-REEL72 ADD8708WSTZ-REEL2 1 2 Temperature Range -40C to +105C -40C to +105C Package Description 48-Lead Lead Frame Chip Scale Package 48-Lead Low Profile Quad Flat Package Available in reels only. Z = Pb-free part. (c) 2004 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners. D04614-0-10/04(0) Rev. 0 | Page 16 of 16 Package Option CP-48 ST-48