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(R) ISL45042 Data Sheet November 14, 2006 FN6072.6 LCD Module Calibrator The VCOM voltage of an LCD panel needs to be adjusted to remove flicker. The ISL45042 can be used to digitally adjust a panel's VCOM voltage by controlling its output sinkcurrent. The output of the ISL45042 is connected to an external voltage divider and an external VCOM buffer amplifier. In this application, the user can control the VCOM voltage with 7 Bit accuracy (128 steps). Once the desired VCOM setting is obtained, the settings can be stored in the non-volatile EEPROM memory, which would then be automatically recalled during every power-up. The VCOM adjustment and non-volatile memory programming is through a single interface pin (CTL). Once the desired programmed value is obtained the Counter Enable pin (CE) can be used to prevent further adjustment or programming. The full-scale sink current of the ISL45042 is set using an external resister connected to the SET pin. The full-scale sink current determines the lowest voltage of the external voltage divider. The ISL45042 is available in an 8 Ld 3mmx3mm Thin DFN package with a maximum thickness of 0.8mm for ultra thin LCD panel design. Features * 128-Step Adjustable Sink Current Output * 2.6V to 3.6V Logic Supply Voltage Operating Range * 4.5V to 20V Analog Supply Voltage Range * Rewritable EEPROM for storing the optimum VCOM value * Output Adjustment Enable/Disable Control * Output Guaranteed Monotonic Over Temperature * Two Pin Adjustment, Programming and Enable * Ultra Thin 8 Ld 3mmx3mm DFN (0.8mm max) * Pb-Free Plus Anneal Available (RoHS Compliant) Applications * LCD Panels Ordering Information TEMP. RANGE PART (C) PART NUMBER MARKING ISL45042IR ISL45042IR-T 042I 042I PKG. DWG. # PACKAGE -40 to +85 8 Ld 3x3 Thin DFN L8.3x3A -40 to +85 8 Ld 3x3 Thin DFN L8.3x3A Tape and Reel -40 to +85 8 Ld 3x3 Thin DFN L8.3x3A (Pb-free) -40 to +85 8 Ld 3x3 Thin DFN L8.3x3A Tape and Reel (6k pcs) (Pb-free) -40 to +85 8 Ld 3x3 Thin DFN L8.3x3A Tape and Reel (1k pcs) (Pb-free) Pinout ISL45042 (8 LD THIN DFN) TOP VIEW OUT 1 AVDD 2 N/C 3 GND 4 8 7 6 5 SET CE CTL VDD ISL45042IRZ (Note) ISL45042IRZ-T (Note) 042Z 042Z ISL45042IRZ-TK 042Z (Note) 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. 2003, 2005-2006. All Rights Reserved. All other trademarks mentioned are the property of their respective owners. ISL45042 Pin Descriptions PIN OUT FUNCTION Adjustable Sink Current Output Pin. The current sinks into the OUT pin is equal to the DAC setting times the maximum adjustable sink current divided by 128. See SET pin function description for the maxim adjustable sink current setting. High-Voltage Analog Supply. Connects to top of external resistor divider to determine the VCOM voltage. Typically 10V to 20V. Bypass to GND with 0.1F de-coupling capacitor. No Connect. Not internally connected. Ground connection. ISL45042 power supply input. Bypass to GND with 0.1F de-coupling capacitor. Internal Counter Up/Down Control and Internal EEPROM Programming Control Input. If CE is high, a mid-to-low transition increments the 7-bit counter, raising the DAC setting, increasing the OUT sink current, and lowering the divider voltage at OUT. A mid-to-high transition decrements the 7-bit counter, lowering the DAC setting, decreasing the OUT sink current, and increasing the divider voltage at OUT. Applying 4.9V and above with appropriately arranged timing will overwrite EEPROM with the contents in the 7-bit counter. See EEPROM Programming section for details. Counter Enable Pin. Connect CE to VDD to enable adjustment of the output sink current. Float or connect CE to GND to prevent further adjustment or programming (note: the CE pin has an internal pull down resistor). Maximum Sink Current Adjustment Point. Connect a resistor from the SET pin to GND to set the maximum adjustable sink current of the OUT pin. The maximum adjustable sink current is equal to (AVDD/20) divided by RSET. The maximum set current has to be less than 120A. AVDD N/C GND VDD CTL CE SET Block Diagram ISL45042 CE 400k to 500k UP CTL DWN DIGITAL INTERFACE WITH THRESHOLD SENSORS PWRUP POR PRGM UP/DOWN COUNTER WITH PRESET LATCHES ANALOG DCP AND CURRENT OUTPUT BLOCK SET AVDD IBIAS IOUT READ POR EEPROM OR NVL MEMORY PRGM MEMORY PRGM GND VDD 2 FN6072.6 November 14, 2006 ISL45042 Absolute Maximum Ratings VDD to Ground. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .+4V Input Voltages to GND SET, CE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -0.3V to +4V AVDD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -0.3V to +20V CTL. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -0.3V to +17V Output Voltages to GND OUT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . -0.3V to +20V ESD Rating HBM for Device . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.75kV HBM for CTL to GND (no EEPROM Content Disruption). . . . .8kV Thermal Information Thermal Resistance (Typical, Note 1) JA (C/W) 8 Ld Thin DFN Package. . . . . . . . . . . . . . . . . . . . . . 90 Moisture Sensitivity (see Technical Brief TB363) All Packages . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Level 1 Maximum Junction Temperature (Plastic Package) . . . . . . +150C Maximum Storage Temperature Range . . . . . . . . . .-65C to +150C Maximum Lead Temperature (Soldering 10s) . . . . . . . . . . . +300C (Lead Tips Only) Erase/Write Cycles . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10,000 Data Retention. . . . . . . . . . . . . . . . . . . . . . . . . . . 10 years @ +85C Operating Conditions Temperature Range ISL45042IR . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .-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. NOTE: 1. JA is measured in free air with the component mounted on a high effective thermal conductivity test board with "direct attach" features. See Tech Brief TB379. Electrical Specifications Test Conditions: VDD = 3V, AVDD = 10V, OUT = 5V, RSET = 24.9k; Unless Otherwise Specified. Typicals are at TA = +25C SYMBOL TEST CONDITIONS TEMP (C) MIN TYP MAX UNITS PARAMETER DC CHARACTERISTICS VDD Supply Range VDD For Programming For Operation 0 to 85 Full Full Full Full 3 2.6 4.5 0.7*VDD 0.2*VDD 20 20 0.64*VDD 4.9 200 10 1 - 3.6 3.6 50 20 20 20 0.8*VDD 0.3*VDD 200 200 10 10 10 0.4 15.75 - V V A A V A V V s s s s s A A pF V V ms V s VDD Supply Current IDD CE = VDD (Note 6) CE = GND AVDD Supply Range AVDD Supply Current CTL High Voltage CTL Low Voltage CTL High Rejected Pulse Width CTL Low Rejected Pulse Width CTL High Minimum Pulse Width CTL Low Minimum Pulse Width CTL Minimum Time Between Counts CTL Input Current AVDD IAVDD CTLIH CTLIL CTLIHRPW CTLILRPW CTLIHMPW CTLILMPW CTLMTC ICTL CTL = GND CTL = VDD (Note 3) 2.6V < VDD < 3.6V 2.6V < VDD < 3.6V Full Full Full Full Full Full Full Full Full Full Full Full Full Full Full Full CTL Input Capacitance CE Input Low Voltage CE Input High Voltage CE Minimum Start Up Time CTL EEPROM Program Voltage CTL EEPROM Programming Signal Time CTLCAP CEIL CEIH CEST CTLPROM CTLPT (Note 5) 2.6V < VDD < 3.6V 2.6V < VDD < 3.6V (Note 5) 2.6V < VDD < 3.6V, (Note 2) >4.9V 3 FN6072.6 November 14, 2006 ISL45042 Electrical Specifications Test Conditions: VDD = 3V, AVDD = 10V, OUT = 5V, RSET = 24.9k; Unless Otherwise Specified. Typicals are at TA = +25C (Continued) SYMBOL PT SETVR SETDN SETZSE SETFSE ISET SETER Through RSET (Note 7) To GND, AVDD = 20V To GND, AVDD = 4.5V AVDD to SET Voltage Attenuation OUT Settling Time OUT Voltage Range OUT Voltage Drift NOTES: 2. CTL signal only needs to be greater than 4.9V to program EEPROM. 3. Tested at AVDD = 20V. 4. The Counter value is set to mid-scale 4 LSB's in the Production. 5. Simulated and Determined via Design and NOT Directly Tested. 6. Simulated Maximum Current Draw when Programming EEPROM is 23mA, should be considered when designing Power Supply. 7. A Typical Current of 20A is Calculated using the AVDD = 10V and RSET = 24.9k. The maximum suggested SET Current should be 120A. AVDD to SET OUTST VOUT OUTVD (Note 5) to 0.5 LSB Error Band (Note 5) (Note 4) Monotonic Over Temperature TEST CONDITIONS TEMP (C) Full Full Full Full Full Full Full Full Full Full Full 25 to 55 7 10 2.25 VSET + 0.5V 7 20 1:20 20 <10 MIN TYP MAX 100 7 1 2 8 200 45 13 UNITS ms Bits LSB LSB LSB A k k V/V s V mV PARAMETER Programming Time SET Voltage Resolution SET Differential Nonlinearity SET Zero-Scale Error SET Full-Scale Error SET Current SET External Resistance Application Information The application circuit to adjust the VCOM voltage in an LCD panel is shown in Figure 1. The ISL45042 has a 128-step sink current resolution. The output is connected to an external voltage divider, that results in decreasing the output VCOM voltage as you increase the ISL45042 sink current. AVDD ISL45042 CTL CE OUT SET RSET ISink AVDD R1 R2 CTL Pin The adjustment of the output VCOM voltage and the programming of the non-volatile memory are provided through a single pin called CTL, when the CE pin is high. The output VCOM voltage is increased with a mid (Vdd/2) to high transition (0.8*VDD) on CTL pin. The output VCOM voltage is decreased with a mid (Vdd/2) to low transition (0.3*VDD), on CTL pin (Reference Figure 6). Once the minimum or maximum value is reached on the 128 steps, the device will not overflow or underflow beyond that minimum or maximum value. Programming of the non-volatile memory occurs when the CTL pin exceeds 4.9V. The CTL signal needs to remain above 4.9V for more than 200s. The level and timing needed to program the non-volatile memory is given in Figure 2. It then takes a maximum of 100ms for the programming to be completed inside the device. VCOM + - GREEN COLUMN DRIVER SINGLE PIXEL IN LCD PANEL FIGURE 1. VCOM ADJUSTMENT IN AN LCD PANEL 4 BLUE FN6072.6 November 14, 2006 RED ISL45042 CTL VOLTAGE >200s To avoid unintentional adjustment, the ISL45042 guarantees to reject CTL pulses shorter than 20s. During Initial Power-up (only), to avoid the possibility of a false pulse (since the internal comparators come up in an unknown state) the very first CTL pulse is ignored. See Figure 6 for the timing information. 4.9V CE Pin CTLPT TIME FIGURE 2. EEPROM PROGRAMMING When the part is programmed, the counter setting is loaded into the non-volatile memory. This value will be loaded from the nonvolatile memory during initial power-up or when the CE pin is pulled low. Once the programming is completed it is recommended that the user float the CLT pin. The CTL pin is internally tied to a resistor network connected to ground. If left floating, the voltage at the CTL pin will equal VDD/2. Under these conditions, no additional pulses will be seen by the Up/Down counter via the CTL pin. To prevent further programming ground the CE pin. CTL should have a noise filter to reduce bouncing or noise on the input that could cause unwanted counting when the CE pin is high. The board should have an additional ESD protection circuit, with a series 1k resistor and a shunt 0.01F capacitor connected on the CTL pin. (See Figure 3) 1k To adjust the output voltage, the CE pin must be pulled high (VDD). The CE pin has an internal pull-down resistor to prevent unwanted reprogramming of the EEPROM. The impedance of this resistor is 400k to 500k (RINTERNAL Figure 5). Transitions of the CE pin are recommended to be less than 10 seconds. Replacing Existing Mechanical Potentiometer Circuits Figure 4 shows the common adjustment mechanical circuits and equivalent replacement with the ISL45042. Expected Output Voltage The ISL45042 provides an output sink current which lowers the voltage on the external voltage divider (VCOM output voltage). EQ. 1 and EQ. 2 can be used to calculate the output current (IOUT) and output voltage (VOUT) values. Setting AVDD IOUT = -------------------- X ---------------------------128 20 ( RSET ) (EQ. 1) ISL45042 CTL R2 Setting R1 VOUT = --------------------- AVDD 1 - -------------------- X ---------------------------- R1 + R2 128 20 ( RSET ) (EQ. 2) 0.01F NOTE: Where setting is an integer between 1 and 128. FIGURE 3. EXTERNAL ESD PROTECTION ON CTL PIN AVDD Ra VCOM Rb + ISL45042 OUT R2 R1 + VCOM AVDD AVDD SET Rc R1 = Ra R2 = Rb + Rc RSET = (Ra(Rb + Rc)) / 20Rb RSET FIGURE 4. EXAMPLE OF THE REPLACEMENT FOR THE MECHANICAL POTENTIOMETER CIRCUIT USING THE ISL45042 5 FN6072.6 November 14, 2006 ISL45042 Table 1 gives the calculated value of VOUT for resistors values of: RSET = 24.9k, R1 = 200k, R2 = 243k, and VADD = 10V. TABLE 1. CALCULATED VCOM OUTPUT VOLTAGES SETTING VALUE 1 10 20 30 40 50 60 70 80 90 100 110 128 VOUT 5.468 5.313 5.141 4.969 4.797 4.625 4.453 4.281 4.109 3.936 3.764 3.592 3.282 RB 4k RINTERNAL = 400k to 500k VCE RA 2k CE ISL45042 Generating VDD and CE supply from a Larger Voltage Source The CE pin has an internal pull-down resistor (RINTERNAL Figure 5). The impedance of this resistor is 400k-500k. If your design is using a resistor divider network to generate the 3.3V supply (for both VDD and CE to enable programming) from a larger voltage source, the 400k (worst case) resistor needs to be taken into account as a parallel resistance when the CE pin is connected to this source. Another design concern is to be able to provide enough supply current during programming. The ISL45042 draws about 2mA during this process. Recommended resistor values are shown in Figure 5. This design will result in an additional 0.83mA quiescent current flowing through resistors RA and RB.. VCC= 5V CE LOGIC RSET Resistor The external RSET resistor sets the full-scale sink current that determines the lowest voltage of the external voltage divider R1 and R2 (Figure 1). The maximum ISET current has to be less than 120A. The minimum RSET resistor with AVDD equal to 10V is 4.17k (10V/(20*120A). Typical applications with AVDD equal to 10V and RSET equal to 24.9k will result in a set current equal to 20A. FIGURE 5. APPLICATION GENERATING VDD AND VCE VOLTAGES Power Supply Sequence The recommendation for power supply sequence would be to power down the part first (Vdd, AVdd), after 100msec if programming has occurred, and then power down the control power supplies (CTL, CE). ISL45042 Truth Table The ISL45042 truth table is shown in Table 2. For proper operation the CE should be disabled (pulled low) before powering the device down to assure that the glitches and transients will not cause unwanted EEPROM overwriting. TABLE 2. TRUTH TABLE INPUT CTL Mid to Hi Mid to Lo X >4.9V CE Hi Hi Lo Hi VDD VDD VDD VDD VDD OUT Increment Decrement OUTPUT ICC Normal Normal MEMORY X X Read Program Verifying the Programmed Value The following sequence can be used to verify the programmed value without having to sequence the VDD supply. To verify the programmed value, follow the steps below. The ISL45042 will read memory contents and be set to that value when the CE pin is grounded. 1. Power up the ISL45042. 2. CE pin = VDD. 3. Change counter value with CTL pin to desired value. 4. CTL = more than 4.9V and 200msec. Counter value programmed. 5. Change the counter value with CTL pin to a different value. 6. CE pin = Ground. 7. Check that the output value is the one programmed in step #4. No Change Increased No Change Increased 6 FN6072.6 November 14, 2006 ISL45042 . CEST CTLMTC CTLIHRPW CTL HIGH CTL VDD/2 CTL LOW CTLIHMPW CTLILMPW CTLILRPW CE START PROGRAMMING STOP PROGRAMMING START PROGRAMMING COUNTER OUTPUT UNDEF. 78 79 7A 7B 7A NOTE: AFTER POWER IS 1ST APPLIED, THE VERY 1ST CTL PULSE IS IGNORED. IGNORES 1ST PULSE AFTER PROGRAMMING VCOM THE TIMING DIAGRAM ABOVE SHOWS POST POWER-UP TIMING. FIGURE 6. ISL45042 TIMMING DIAGRAM 7 FN6072.6 November 14, 2006 ISL45042 Thin Dual Flat No-Lead Plastic Package (TDFN) 2X 0.15 C A A D 2X 0.15 C B L8.3x3A 8 LEAD THIN DUAL FLAT NO-LEAD PLASTIC PACKAGE MILLIMETERS SYMBOL A A1 MIN 0.70 NOMINAL 0.75 0.02 0.20 REF 0.25 0.30 3.00 BSC 2.20 2.30 3.00 BSC 1.40 1.50 0.65 BSC 0.25 0.20 0.30 8 4 0.40 1.60 2.40 0.35 MAX 0.80 0.05 NOTES 5, 8 7, 8, 9 7, 8, 9 8 2 3 Rev. 3 11/04 NOTES: 1. Dimensioning and tolerancing conform to ASME Y14.5-1994. 2. N is the number of terminals. E 6 INDEX AREA TOP VIEW B A3 b D D2 E // 0.10 C 0.08 C E2 e k L N Nd A C SEATING PLANE SIDE VIEW A3 D2 (DATUM B) 1 2 D2/2 7 8 6 INDEX AREA (DATUM A) NX k E2 E2/2 3. Nd refers to the number of terminals on D. 4. All dimensions are in millimeters. Angles are in degrees. 5. Dimension b applies to the metallized terminal and is measured between 0.15mm and 0.30mm from the terminal tip. 6. The configuration of the pin #1 identifier is optional, but must be located within the zone indicated. The pin #1 identifier may be either a mold or mark feature. 7. Dimensions D2 and E2 are for the exposed pads which provide improved electrical and thermal performance. NX L N 8 N-1 e 5 (Nd-1)Xe REF. BOTTOM VIEW C L NX (b) 5 SECTION "C-C" TERMINAL TIP FOR EVEN TERMINAL/SIDE e (A1) L1 10 L 0.10 M C A B NX b 8. Nominal dimensions are provided to assist with PCB Land Pattern Design efforts, see Intersil Technical Brief TB389. 9. Compliant to JEDEC MO-WEEC-2 except for the "L" min dimension. 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 8 FN6072.6 November 14, 2006 |
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