LDS8866002-T2-300

LDS8866 6-Channel Ultra Low Dropout LED Driver FEATURES o o o Charge pump modes: 1-x, 1.33-x, 1.5-x, 2-x Ultra low dropout PowerLite™ Current Regulator* Drives up to 6 LEDs up to 32 mA each o Factory preset current value for each LED bank o PWM brightness control with up to 25,000:1 dimming range at 200 Hz o o o Power efficiency up to 94% Low input noise & ripple in all charge pump modes Low current shutdown mode o o Short circuit current limiting Thermal shutdown protection o Available in 3 x 3 x 0.8 mm 16-pin TQFN package PowerLite™ Current Regulator (PCR) increases device’ efficiency up to 94%. New mode requires no additional external capacitors. The PWM1/PWM2 logic inputs function as a chip enable and a PWM mode LED brightness control. PWM1 pin contorls LEDA and LEDB banks with four LEDs, while PWM2 controls bank LEDC with two LEDs. APPLICATION o o Keypad and Display Backlight Cellular Phones o o Digital Still Cameras PDAs and Smartphones The maximum LEDs current is factory preset. Every LED bank with two LEDs each is programmable separately in the range from 0.5 to 32 mA in 0.5 mA steps. Low noise input ripple is achieved by operating at a constant switching frequency which allows the use of small external ceramic capacitors. The multifractional charge pump supports a wide range of input voltages from 2.7 V to 5.5 V. DESCRIPTION The LDS8866 is a high efficiency multi-mode fractional charge pump with ultra low dropout voltage that can drive up to six LEDs. Inclusion of a 1.33-x fractional charge pump mode and ultra low dropout The device is available in a 16-lead TQFN 3 mm x 3 mm package with a max height of 0.8 mm. TYPICAL APPLICATION CIRCUIT © 2009 IXYS Corp. Characteristics subject to change without notice 1 Doc. No. 8866DS, Rev. N2.0 LDS8866 ABSOLUTE MAXIMUM RATINGS Parameter V IN, LEDx, C1±, C2± voltage V OUT voltage PWM1, PWM2 voltage Storage Temperature Range Junction Temperature Range Soldering Temperature Rating 6 6 V IN + 0.7V -65 to +160 -40 to +125 300 Unit V V V °C °C °C RECOMMENDED OPERATING CONDITIONS Parameter V IN Ambient Temperature Range Rating 2.7 to 5.5 -40 to +85 Unit V °C ELECTRICAL OPERATING CHARACTERISTICS (Over recommended operating conditions unless specified otherwise) 25°C Name Quiescent Current Shutdown Current LED Current Accuracy LED Channel Matching Output Resistance (open loop) 1 Charge Pump Frequency Output short circuit Current Limit 1-x to 1.33-x, 1.33-x to 1.5-x, or 1.5-x to 2-x Mode Transition Threshold 1.33-x to 1-x Mode Transition Hysteresis 1 Charge Pump Transition Filter delay PWM1, Input Leakage PWM2 High Logic Level pins Low 1 PWM frequency PWM Pulse HIGH/LOW state PWM Low Time to Shutdown 1 Thermal Shutdown 1 Thermal Hysteresis V IN Under Voltage Lockout (UVLO) 2 1 VThreshold OUT Over Voltage Protection 1 VIN = 3.6V, Cin = Cout = 1 µF, C1 = C2 = 0.22 µF, EN = High, TAMB = Conditions 1-x mode PWM1 = PWM2 = 0V To factory preset value (ILED - ILEDAVG) / ILEDAVG 1-x mode 1.33-x mode 1.5-x mode 2-x mode 1.33-x 1.5-x mode and 2-x mode V OUT < 0.5V Min Typ 1.7 -5 -5 ±3 ±3 0.8 3.5 5.5 6.5 0.8 1.1 35 75 Max 2.5 1 +5 +5 Ω MHz mA 130 mV 1 mV µs µA 600 800 -1 1.3 0.4 100000 100 Units mA µA % % 200 30 150 20 2.2 V Hz ns ms °C 6.2 V V Sample test only © 2009 IXYS Corp. Characteristics subject to change without notice 2 Doc. No. 8866DS, Rev. N2.0 LDS8866 PIN DESCRIPTION Pin # 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15, 16 TAB Name LEDC2 LEDC1 LEDB2 LEDB1 LEDA2 LEDA1 V OUT VIN C1+ C1C2+ C2PWM2 PWM1 GND TAB Function LEDC2 cathode terminal LEDC1 cathode terminal LEDB2 cathode terminal LEDB1 cathode terminal LEDA2 cathode terminal LEDA1 cathode terminal Charge pump output connected to the LED anodes Charge pump input, connect to battery or supply Bucket capacitor 1 Positive terminal Bucket capacitor 1 Negative terminal Bucket capacitor 2 Positive terminal Bucket capacitor 2 Negative terminal LEDC bank PWM brightness control LEDA and L EDB banks PWM brightness control Connect both pins to GND Bottom Thermal Pad; connect to GND on the PCB Top view: TQFN 16-lead 3 X 3 mm PIN FUNCTION capacitor is required between the V OUT pin and ground near the device. V IN is the supply pin for the charge pump. A small 1μF ceramic bypass capacitor is required between the VIN pin and ground near the device. The operating input voltage range is from 2.7 V to 5.5 V. Whenever the input supply falls below the under-voltage threshold (2.2 V), all the LED channels are disabled, and the device enters shutdown mode. GND is the ground reference for the charge pump. The pin must be connected to the ground plane on the PCB. C1+, C1- are connected to each side of the ceramic bucket capacitor C1 PWM1, PWM2 are the enable and PWM LED brightness control logic inputs. Guaranteed levels of logic high and logic low are set at 1.3 V and 0.4 V respectively. When any of PWM pins is taken high, the device becomes enabled with maximum LED current at associated bank. To place the device into zero current mode, both PWM pins must be held low for more than 30 ms. C2+, C2- are connected to each side of the ceramic bucket capacitor C2 LEDA1 – LEDC2 provide the internal regulated current source for each of the LED cathodes. These pins enter high-impedance zero current state whenever the device is in shutdown mode. TAB is the exposed pad underneath the package. For best thermal performance, the tab should be soldered to the PCB and connected to the ground plane V OUT is the charge pump output that is connected to the LED anodes. A small 1μF ceramic bypass © 2009 IXYS Corp. Characteristics subject to change without notice 3 Doc. No. 8866DS, Rev. N2.0 LDS8866 TYPICAL CHARACTERISTICS Vin = 3.6V, IOUT = 180mA (6 LEDs at 30mA), C 1 = C2 = 0.22 μF, CIN = C OUT = 1μ F, T AMB = 25°C unless otherwise specified Power Efficiency vs. Input Voltage at V F = 3.2 V Power-Up in 1-x mode Ch1 – PWM, PWM2, Ch2 – Vout, Ch3 – Output current (100mA/div) Power-Up in 1.33-x Mode Power-Up in 1.5-x Mode Ch1 – PWM1, PWM2, Ch2 – Vout, Ch3 – Output current (100mA/div) Ch1 – PWM1, PWM2, Ch2 – Vout, Ch3 – Output current (100mA/div) Power-Up in 2-x Mode Power-Down Delay (1-x Mode) Ch1 – PWM1, PWM2, Ch2 – Vout, Ch3 – Output current (100mA/div) Ch1 – PWM1, PWM2, Ch2 – Vout, Ch3 – Output current (100mA/div) © 2009 IXYS Corp. Characteristics subject to change without notice 4 Doc. No. 8866DS, Rev. N2.0 LDS8866 TYPICAL CHARACTERISTICS Vin = 3.6V, IOUT = 180mA (6 LEDs at 30mA), C1 = C 2 = 0.22 μF, CIN = C OUT = 1μF, TAMB = 25°C unless otherwise specified Operating Waveforms at 1kHz PWM mode Operating Waveforms at 10kHz PWM mode Ch1 – PWM1, PWM2, Ch2 – Vout, Ch3 – Output current (100mA/div) Ch1 – PWM1, PWM2, Ch2 – Vout, Ch3 – Output current (100mA/div) Operating Waveforms at 50kHz PWM mode Operating Waveforms at 100kHz PWM mode Ch1 – PWM1, PWM2, Ch2 – Vout, Ch3 – Output current (100mA/div) Ch1 – PWM1, PWM2, Ch2 – Vout, Ch3 – Output current (100mA/div) © 2009 IXYS Corp. Characteristics subject to change without notice 5 Doc. No. 8866DS, Rev. N2.0 LDS8866 BLOCK DIAGRAM Figure 2. LDS8866 Functional Block Diagram BASIC OPERATION At power-up, PWM1 and PWM2 pins should be logic LOW. During power-up device performs internal circuits reset that requires less than 10µs. To start device either PWM1 or PWM2 pin should be set logic HIGH 10µs after than input voltage applied. Device starts operating at 1-x mode at which the output is approximately equal to the input supply voltage (less any internal voltage losses). If the output voltage is sufficient to regulate all LED currents, the device remains in 1-x operating mode. Vd = VIN x M – V F – Rcp x Iout, where Rcp is a Charge Pump Output Resistance at given mode, Iout is sum of all LED currents, and M is a charge pump’ multiplication ratio. If the input voltage is insufficient or falls to a level where Vd ≤75 mV, and the regulated currents cannot be maintained, the low dropout PowerLite™ Current Regulator switches the charge pump into 1.33-x mode (after a fixed delay time of about 800 μs). In 1.33-x mode, the charge pump’ output voltage is approximately equal to 1.33 times the input supply voltage (less any internal voltage losses). The low dropout PowerLite™ Current regulator (PCR) performs well at input voltages Vin up to 75 mV above LED forward voltage V F significantly increasing driver’s efficiency. The LDS8866 monitors voltage drop Vd across PCR at every channel in ON state. If this voltage falls below 75 mV (typical) at any one channel, (channel with LED with highest forward voltage), the Mode Control Block changes charge pump mode to the next multiplication ratio. © 2009 IXYS Corp. Characteristics subject to change without notice This sequence repeats at every mode until driver enters the 2-x mode. If the device detects a sufficient input voltage is present to drive all LED currents in 1-x mode, it will change automatically back to 1-x mode. This only applies for changing back to the 1-x mode. The difference between the input voltage when exiting 1-x 6 Doc. No. 8866DS, Rev. N2.0 LDS8866 mode and returning to 1-x mode is called the 1-x mode transition hysteresis (about 600 mV). The LDS8866’s PWM logic control circuits have been designed to operate from 100 Hz to 100 kHz with duty cycles higher than (0.02*F)% and lower than (100 – 0.02*F)%, where F is the PWM control frequency in kHz. The brightness dynamic dimming range at 200 Hz is 25,000 : 1. PWM control frequencies lower than 100 Hz are not recommended (especially with short duty cycles) because LED flicker may become visible. Operation of PWM-based LED Current Control The maximum current value in each of the LDS8866’s three LED banks is factory preset; to set each ILED below this value, a PWM (a duty cycle based) control signal can be applied at the PWM1/PWM2 pins. Using a PWM control technique guarantees stable WLED color temperature over a wide range of LED currents. The LED color temperature set at the factory preset maximum LED current does not vary with respect to the average LED current unlike conventional 1-wire LED current control methods. When PWM current control is enabled, the LED current is modulated from zero to 100% over a single PWM period. For example, when PWM1/PWM2 is logic high, the LED current is set equal to the maximum factory preset value. When PWM1/PWM2 is logic low, the LED current is zero. The average LED current level is then determined by the PWM duty cycle that may be adjusted as described above. Figure 3. LDS8866 Timing Diagram Note: Timing diagram represents condition when LED forward voltage Vf is higher than Charge Pump Mode times(1.5) input voltage minus voltage drop on current regulator VPCR and minus voltage drop on charge pump output resistance Rcp at Iled current through N LEDs. Vf > CPM X Vin – Vd – Rcp x Iled x N; PWM duty Cycle = TPWM ON / (TPWM ON + TPWM OFF ) charge pump operating mode (1-x, 1.33-x, 1.5-x, or 2-x), and divided by charge-pump driver’s efficiency. For example, if six LEDs are used and the charge pump is operating in 2-x mode, the maximum pulse current at VIN would then be 400 mA (= 30 mA/LED x When LED current control is enabled at the PWM1/PWM2 inputs, the LDS8866’s maximum input current is determined by the factory preset maximum LED current multiplied by number of LED used, the © 2009 IXYS Corp. Characteristics subject to change without notice 7 Doc. No. 8866DS, Rev. N2.0 LDS8866 6LEDs x 2/0.9), assuming that charge pump’s efficiency alone at 2-x mode is 90% and maximum factory preset current is 30 mA per LED. Protection Modes The LDS8866 has follow protection modes When PWM LED current control is first enabled (at cold start, for example), the LDS8866’s VIN , VOUT , and VPCR monitors cause the LDS8866’s charge pump to cycle through all four operating modes (if necessary) so that VOUT is high enough to maintain regulated LED current. To prevent nuisance switching of the charge pump during this initial start-up sequence, a 0.8ms transition filter is applied at each charge-pump mode. Depending on VIN and the VF of the LEDs chosen, the maximum cold-start delay to regulated LED current operation can be up to 2.4ms. (See Timing Diagram Figure 3) 1. LED short to V OUT protection If LED pin is shorted to V OUT , LED burned out becomes as short circuit, or LED pin voltage is within from V OUT to (VOUT - 1.5V) range, LDS8866 recognizes this condition as “LED Short” and disables this channel. If LED pin voltage is less than (Vout – 1.5V), LDS8866 restores LED current at this particular channel to programmed value. 2. V OUT Over-Voltage Protection The charge pump’ output voltage V OUT automatically limits at about 6.2 V maximum. This is to prevent the output pin from exceeding its absolute maximum rating. Once the LDS8866 reaches steady-state operation, its charge pump remains in operation even when the LED current is turned off (tOFF). As shown in Figure 3, VOUT increases slightly by an amount proportional to the voltage drop generated by charge pump’s R OUT and the total LED current load. The LDS8866’s efficiency and LED current regulation are not affected because the LEDs are off during this time. 3. V OUT Short Circuit Protection If VOUT is shorted to ground before LDS8866 is enabled, input current may increase up to 200 – 300 mA within 20 µs after enable and is limited to 35 – 40 mA after that. If the PWM1/PWM2 pins are held high or low longer than 30ms (Time to Shutdown), the LDS8866 turns LEDs off. If PWM1/PWM2 pins are low, shutdown mode is enabled and the supply current drops to 1 µA or less. If PWM1/PWM2 pins are logic high, the LDS8866 charge pump remains active with an overall quiescent current ~ 1 mA. 4. Over-Temperature Protection If the die temperature exceeds +150°C, the driver will enter shutdown mode. The LDS8866 requires restart after die temperature falls below 130°C. 5. Input Voltage Under-Voltage Lockout If V IN falls below 2.2 V (typical value), LDS8866 enters shutdown mode. Device requires restart when input voltage rises above 2.3 V. Unused LED Channels For applications with only two or four LEDs, unused LED banks can be disabled via the appropriate PWM pin connected to the ground. 6. Low V IN or High LED VF Voltage Detection If, in 2-x mode, V IN is too low to maintain regulated LED current for given LED VF, or LED becomes an open circuit, or if any LED at active channels is disconnected, LDS8866 starts subsequently changing modes (2-x – 1-x – 1.33-x -1.5-x – 2-x -…) in an attempt to compensate insufficient voltage. As a result, average current at all other channels that are ON may fall below regulated level. For applications requiring 1, 3, or 5 channels, the unused LED pins should be tied to VOUT (see Figure 4). If LED pin voltage is within 1 V of VOUT , then the channel is switched off and a 250 μA test current is placed in the channel to sense when the channel moves below VOUT – 1.5 V. LED Selection LEDs with forward voltages (VF ) ranging from 1.6 V to 3.6 V may be used. Charge pumps operate in highest efficiency when V F voltage is close to V IN voltage multiplied by switching mode, i.e. V IN x 1, V IN x 1.33, and so on. If the power source is a Li-ion battery, LEDs with VF = 2.7 V - 3.3 V are recommended to achieve highest efficiency performance and extended operation on a single battery charge. Figure 4. Application circuit with 5 LEDs © 2009 IXYS Corp. Characteristics subject to change without notice 8 Doc. No. 8866DS, Rev. N2.0 LDS8866 External Components The driver requires two external 1 µF ceramic capacitors (X5R or X7R type) for decoupling input, output, and two 0.22 µF ceramic capacitors (X5R or X7R type) for the charge pump. In all charge pump modes, the input current ripple is very low, and an input bypass capacitor of 1µF is sufficient. In 1-x mode, the device operates in linear mode and does not introduce switching noise back onto the supply. Recommended Layout In charge pump mode, the driver switches internally at a high frequency. It is recommended to minimize trace length to all four capacitors. A ground plane should cover the area under the driver IC as well as the bypass capacitors. Short connection to ground on capacitors Cin and Cout can be implemented with the use of multiple via. A copper area matching the TQFN exposed pad (TAB) must be connected to the ground plane underneath. The use of multiple via improves the package heat dissipation. © 2009 IXYS Corp. Characteristics subject to change without notice Figure 5. Recommended layout 9 Doc. No. 8866DS, Rev. N2.0 LDS8866 PACKAGE DRAWING AND DIMENSIONS 16-PIN TQFN (HV3), 3mm x 3mm, 0.5mm PITCH SYMBOL A A1 A2 b D D1 E E1 e L m n MIN 0.70 0.00 0.178 0.20 2.95 1.65 2.95 1.65 0.325 NOM 0.75 0.02 0.203 0.25 3.00 1.70 3.00 1.70 0.50 typ 0.375 0.150 typ 0.225 typ MAX 0.80 0.05 0.228 0.30 3.05 1.75 3.05 1.75 0.425 Note: 1. All dimensions are in millimeters 2. Complies with JEDEC Standard MO-220 © 2009 IXYS Corp. Characteristics subject to change without notice 10 Doc. No. 8866DS, Rev. N2.0 LDS8866 ORDERING INFORMATION Notes: 1. 2. Part Number Package Package Marking LDS8866 002 -T2 300/300/300 TQFN-16 3 x 3mm 8866 Matte-Tin Plated Finish (RoHS-compliant) Quantity per reel is 2000 EXAMPLE OF ORDERING INFORMATION Prefix LDS Device # 8866 Suffix Current Value 002 T2 300/250/105 Tape & Reel T: Tape & Reel 2: 2000/Reel Product Number Company ID LEDA current 30.0 mA LEDB current 25.0 mA LEDC current 10.5 mA Package 002: 3x3 TQFN Notes: 1) All packages are RoHS-compliant (Lead-free, Halogen-free). 2) The standard lead finish is Matte-Tin. 3) The device used in the above example is a LDS8866 002–T2 ( 3x3 TQFN, Tape & Reel, 30/25/5 mA maximum current per LED bank). 4) For additional package and temperature options, please contact your nearest IXYS Corp. Sales office. © 2009 IXYS Corp. Characteristics subject to change without notice 11 Doc. No. 8866DS, Rev. N2.0 LDS8866 Warranty and Use IXYS CORP. MAKES NO WARRANTY, REPRESENTATION OR GUARANTEE, EXPRESS OR IMPLIED, REGARDING THE SUITABILITY OF ITS PRODUCTS FOR ANY PARTICULAR PURPOSE, NOR THAT THE USE OF ITS PRODUCTS WILL NOT INFRINGE ITS INTELLECTUAL PROPERTY RIGHTS OR THE RIGHTS OF THIRD PARTIES WITH RESPECT TO ANY PARTICULAR USE OR APPLICATION AND SPECIFICALLY DISCLAIMS ANY AND ALL LIABILITY ARISING OUT OF ANY SUCH USE OR APPLICATION, INCLUDING BUT NOT LIMITED TO, CONSEQUENTIAL OR INCIDENTAL DAMAGES. IXYS Corp. products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications intended to support or sustain life, or for any other application in which the failure of the IXYS Corp. product could create a situation where personal injury or death may occur. IXYS Corp. reserves the right to make changes to or discontinue any product or service described herein without notice. Products with data sheets labeled "Advance Information" or "Preliminary" and other products described herein may not be in production or offered for sale. IXYS Corp. advises customers to obtain the current version of the relevant product information before placing orders. Circuit diagrams illustrate typical semiconductor applications and may not be complete. IXYS Corp. 1590 Buckeye Dr., Milpitas, CA 95035-7418 Phone: 408.457.9000 Fax: 408.496.0222 http://www.ixys.com © 2009 IXYS Corp. Characteristics subject to change without notice Document No: 8866DS Revision: N2.0 Issue date: 10/7/2009 12 Doc. No. 8866DS, Rev. N2.0