SM8135A White LED Driver IC
OVERVIEW
The SM8135A is a charge pump type white LED driver. It can drive 1 to 4 backlight white LED connected in parallel, making it ideal for portable devices with small LCD. The charge pump switches between ×1 bypass mode, ×1.5 and ×2 boost mode in response to LED drive current requirements. The boost switching occurs in response to the drive current of all the connected LED and thus supports variations in LED forward-bias voltage drop (VF). Besides, the detection of switching is repeated in approx. 1sec-cycle by mode reset action, the SM8135A can respond to temporary variation of supply voltage. These ingenuities on switching detection can prolong the battery life to the fullest extent. Each LED drive current is controlled by a 4-channel LED drive current control circuit. The LED drive current per channel is setup by external resistor. Moreover, the PWM signal control of EN pin can realize nonstep brightness control (10% to 100%). The IC ON/OFF is controlled by EN pin.
FEATURES
I
PINOUT
(Top view)
GND NC DIN3 DIN4 DIN2 DIN1 VOUT C2P C2M PGND C1P C1M ISET EN GND VIN
I
I I I
I I I
I I I
A 3.0 ± 0.08 0.3 ± 0.1
0.5
I
1.8 C 0.3 0.22 ± 0.05
I
0.1 ± 0.05
I
3 = 1.5 ± 0.05
I
Battery life extension by automatic charge pump switch between ×1, ×1.5 and ×2 according to the detection of the LED drive current Controlling 1 to 4 lights of white LED connected in parallel Set up LED drive current value by external resistor (120kΩ: 20mA/ch) 1-wire input controlling ON/OFF and brightness control by PWM signal controlling of EN pin (10 to 100%) Soft start circuit built-in Thermal shut down circuit built-in Input voltage range No-load current (IOUT = 0mA): 2.7 to 4.6V Load current (IOUT = 80mA): 3.0 to 4.6V Maximum output voltage: 4.9V (typ) Maximum output current: 80mA (typ) Quiescent current Not-switching (×1 mode): 0.3mA (typ) Switching (×1.5 mode): 1.5mA (typ) Switching (×2 mode): 1.5mA (typ) Standby current: 0.01µA (typ) Operating frequency: 1MHz (typ) LED drive current accuracy between channel (REST = 120kΩ): ± 5% (max) Package: 16-pin QFN
PACKAGE DIMENSIONS
(Unit: mm)
TOP VIEW 3.0 ± 0.08 B BOTTOM VIEW 1.8
0.02 S A B S 0.2 S
φ 0.05 M S A B
APPLICATIONS
I I I I I I I I
0.2 ± 0.05
Cellular phone PDA Portable games Handy terminal Digital still camera Digital video camera LCD panel back light White LED driving
0.05 S 0.5
ORDERING INFORMATION
Device SM8135AB Package 16-pin QFN
0.7 ± 0.05
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SM8135A
BLOCK DIAGRAM
C1M C1P C2M C2P
VIN
Charge pump 1/ 1.5/ 2
VOUT
Mode control & Output voltage control & Protection Current control & Current detect
DIN1
DIN2
TSD
DIN3
DIN4 Control logic ISET
EN
NC (open at any time)
GND
GND
PGND
PIN DESCRIPTION
Number 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 Name C2M PGND C1P C1M VIN GND EN ISET DIN4 DIN3 NC GND DIN2 DIN1 VOUT C2P I/O – – – – – – I I O O – – O O O – Description Charge pump boost capacitor connection 2M Charge pump ground Charge pump boost capacitor connection 1P Charge pump boost capacitor connection 1M Supply voltage input Ground Enable/PWM dimming pulse input (High active) LED drive current setting resistor connection LED drive current control output 4 (connect to ground when not used) LED drive current control output 3 (connect to ground when not used) No connection (leave open circuit for normal operation) Ground LED drive current control output 2 (connect to ground when not used) LED drive current control output 1 (connect to ground when not used) LED drive voltage output Charge pump boost capacitor connection 2P
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SM8135A
SPECIFICATIONS
Absolute Maximum Ratings
GND = 0V
Parameter VIN voltage range Input voltage range Output voltage range VOUT output current Power dissipation Junction temperature Storage ambient temperature range *1. When mounted on a 4-layer PCB. Note. The device may suffer breakdown if any one of these parameter ratings is exceeded. Symbol VIN VEN VDIN1 to 4 VOUT IOUT PD TJMAX Tstg Rating −0.3 to 5.5 –0.3 to VIN + 0.3 –0.3 to VIN + 0.3 5.5 500 800 (Ta = 25°C)*1 +125 −55 to +125 Unit V V V V mA mW °C °C
1000
Power dissipation [mW]
800
600
400
200
0 25
35
45 55 65 Operating temperature [°C]
75
85
Package power dissipation when mounted on 4-layer board
Recommended Operating Conditions
GND = 0V
Rating Parameter Pin Symbol VIN0 VIN Input voltage range Ambient temperature range EN − VES Ta Conditions min Supply voltage range VIN IOUT = 0mA IOUT = 80mA Logic-level pin 2.7 3.3 0 −30 typ 3.6 3.6 − − max 4.6 4.6 VIN +85 V V V °C Unit
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SM8135A
Electrical Characteristics
VIN = 3.6V, GND = 0V, Ta = 25°C unless otherwise noted.
Rating Parameter Standby current Pin VIN Symbol ISTB IDD1 Quiescent current VIN IDD2
*1
Condition min Standby mode ×1.0 mode, IOUT = 0mA ×1.5 mode, IOUT = 0mA ×2.0 mode, IOUT = 0mA – – – – 4.4 ×1.5/×2.0 mode ×1.5/×2.0 mode switching frequency Rest time from when power is applied EN startup → ILED rising edge Standby mode, DIN pin = 4.9V ×1.0 mode ×1.0 mode, relative accuracy between channels at ILED maximum setting ×1.0 mode RSET minimum value Time from when EN = LOW until shutdown PWM dimming signal frequency PWM dimming signal duty range HIGH-level input voltage range LOW-level input voltage range Pull-down pin, EN pin = 3.6V EN pin = 0V 80 750 – 0.70 – 18.0 –5.0 – 60 0.50 10 10 1.4 – – –1.0 typ 0.01 0.3 1.5 1.5 4.9 – 1000 0.05 1.43 0.01 20.0 – 200 – 1.00 – – – – 5.0 – max 1.00 1.0 4.5 4.5 5.4 – 1250 1.00 3.00 1.00 22.0 +5.0 – – 1.50 100 100 – 0.3 10.0 –
Unit µA mA mA mA V mA kHz ms ms µA mA % mV kΩ ms kHz % V V µA µA
IDD3 Output voltage Maximum output current Operating frequency Internal power-ON reset time*1 Soft start time LED drive pin leakage current LED drive current LED drive current matching LED drive pin voltage LED drive current setting resistance*1 EN hold time*1 PWM input pulse frequency*1 PWM input pulse duty*1 Logic input voltage VOUT VOUT C1M EN DIN1 to 4 DIN1 to 4 DIN1 to 4 DIN1 to 4 DIN1 to 4 ISET EN EN EN EN VOUT IOUT fOSC TPOR TSS ILeak1 to 4 ILED1 to 4 ∆ILED VDIN1 to 4 RSET TCEH fPWM DPWM VIH VIL Logic input current *1. Design guaranteed value EN IIH IIL
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SM8135A
FUNCTIONAL DESCRIPTION
LED Drive Current Setting
The SM8135A LED drive current can be set using a combination of 2 methods: (1) current setting resistance connected to ISET, and (2) PWM signal input control on the EN pin.
(1) Setting LED drive current using RSET
The LED drive maximum current value per LED (ILED MAX) is determined by the resistor (RSET) connected to the ISET pin. The relationship between RSET and ILED MAX is given by the following equation. ILED MAX [mA] = 2400/RSET [kΩ] (For example, ILED MAX = 20mA when RSET = 120kΩ.) The RSET resistance has a minimum rating of 60kΩ. At this value of resistance, the ILED MAX has a maximum rating of 40mA/LED. However, note that the total LED drive current for all LEDs must not exceed 80mA.
50
ISET
ILED MAX [mA]
40 30 20 10 0
RSET
GND
0
100
200
300
400
500
RSET [kΩ]
RSET vs. ILED MAX
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SM8135A
(2) Setting LED current using PWM signal input on EN
The EN input is used to enable/disable circuit operation, but it can also be switched at speed using a PWM signal input to set the average LED drive current value. When using PWM signal input on EN only for dimming control, the average LED drive current is given by the multiplication of the maximum current value (ILED MAX) set by RSET and the PWM signal ON duty percentage. ILED = ILED MAX × ON Duty [%] The PWM signal ON duty is defined in the following figures (“PWM duty”). The PWM signal operating frequency range is 10kHz to 100kHz (10µs to 100µs per period), and the allowable duty range is 10 to 100%. However, LED drive current that can be set by PWM signal has lower limit (= 2mA). When setting current to 2mA or less, even if the signal ON duty is within the allowable range, the current between pins varies widely.
High
EN
Low DUTY100% DUTY50% DUTY10% DUTY25%
ILED MAX
turn on (ILED MAX)
ILED = ILED MAX
50% ILED = ILED MAX 10% ILED = ILED MAX 25%
ILED
turn off (0)
turn off (0)
0
Dimming control with PWM signal
1period ON interval ON OFF interval
10µsec
1period
100µsec
Duty [%] = ON interval/1period
OFF
ILED = ILED MAX Duty [%]
PWM duty
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SM8135A
VOUT Output Circuit Mode Switching
The SM8135A output mode switches between 4 operating modes in response to the operating conditions. The modes are: standby mode, ×1.0 mode (VIN through mode), ×1.5 mode (1.5-times charge pump boost), and ×2.0 mode (2.0-times charge pump boost). Specifically, the use of ×1.0 mode, ×1.5 mode, and ×2.0 mode allows the VOUT output to be adjusted automatically to match drive LED characteristics. Switching between ×1.0 mode, ×1.5 mode, and ×2.0 mode is controlled automatically by an internal circuit. The operating mode cannot be specified by an external control signal. Startup: Internal Reset Time and Soft Start Time The SM8135A normal startup procedure (after VIN has been applied previously) is to switch from standby mode to the ×1.0/×1.5/×2.0 operating modes when the EN enable input goes HIGH. The soft start time (described on the following page) begins after switching to the operating mode using EN.
VIN
VIN High
(1) Soft start time
EN
Standby mode
ENABLE ON
(2)
Normal startup (1) VIN is HIGH, EN is LOW (standby mode) (2) Switches to an operating mode when EN goes HIGH (soft start time begins) If the VIN supply voltage is applied when EN is HIGH level, startup commences after the power-ON reset (POR) time (approximately 50µs) has elapsed.
VIN power source
(1)
Internal power on reset
POR time typ: 50µs
(2)
Soft start time
Internal enable (CE)
Standby mode
1.5 mode
(3)
Internal reset operation when power is applied (power-ON reset) (1) VIN voltage rises when power is applied. (2) Power-ON reset (POR) circuit resets internal circuits approximately 50µs after the power is applied. (3) If EN is HIGH when power is applied, the internal circuits start operating when the internal “CE” signal rising edge occurs after the power-ON reset time. If EN is LOW when power is applied, the “CE” rising edge occurs simultaneously with the first rising edge.
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SM8135A Immediately after startup, the device operates in ×1.5 mode for a fixed interval (soft start time: approximately 1.43ms) to set the current for LEDs connected to the DIN pins. After the soft start time has elapsed, the LEDs are turned ON. Approximately 2ms is required for the LED drive current to reach the set drive value.
EN input signal
(1)
LED current
Soft start time typ: 1.43ms
typ: 2ms LED ON
(2)
Soft start time and LED current (1) If the EN signal is input after power is applied, the soft start time begins on the EN rising edge. The PWM signal input for dimming is active during the soft start time. (2) After the soft start time (1.43ms) has elapsed, the LEDs are turned ON. Approximately 2ms is required for LED drive current to reach set values. Switching to Standby Mode The SM8135A switches from ×1.0/×1.5/×2.0 mode to standby mode if EN goes LOW and stays LOW for an interval of 1.00ms (typ). This function is used to switch the internal circuits to standby mode automatically when the LEDs turn OFF in order to reduce current consumption.
EN
CE hold time typ: 1.00ms LED current
1.0 or 1.5
Standby mode
EN input signal and internal enable signal “CE”
I
If EN is LOW for longer than the enable hold time of 1.00ms (typ), the SM8135A switches to standby mode. In standby mode, the internal circuits are reset.
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SM8135A Boost Mode Auto-switching The SM8135A switches between ×1.0 mode (VIN through mode), ×1.5 mode (1.5-times charge pump boost), and ×2.0 mode (2.0-times charge pump boost) automatically in response to the operating state to reduce current consumption. The switching transition flow chart is shown in the following figure.
LED ON
1.0 mode
1.5 mode
ILED judgment
ILED judgment
insufficient
sufficient insufficient sufficient 1.5 mode 2.0 mode
1.0sec
1.0sec
Mode reset 1.5 1.0
Mode reset 2.0 1.5
ILED judgment
ILED judgment
sufficient insufficient
sufficient insufficient
Boost mode switching flow chart This section describes the boost mode switching in response to insufficient LED drive current level detection. The next section describes the mode reset functions. Initially, when the LED drive current begins to flow, operation begins in ×1.0 mode at the set current value if possible, without boosting the input voltage VIN. If the set current value cannot be attained in ×1.0 mode due to a VIN voltage drop or an increase in the set current value, a low-current detector circuit connected to each LED drive circuit is activated that switches the VOUT output to ×1.5 mode automatically, and the charge pump circuit starts boosting the voltage by 1.5 times. If the set current value still cannot be attained, the LED drive circuits are switched to ×2.0 mode, and the charge pump starts boosting the voltage by 2 times.
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SM8135A
1.0
VIN input voltage
1.5 threshold 1.5 Lack of LED current detect 2.0 mode 2.0 threshold
VOUT mode
1.5 mode 1.0 mode 4.9V
VOUT output voltage
VIN voltage drop and VOUT output voltage In ×1.0 mode, VIN = VOUT. However, the VOUT output does not always reach the electrical characteristics typical rating of 4.9V. However, as long as an insufficient current condition is not detected, ×1.0 mode operation continues. In other words, VOUT may drop below 4.9V if sufficient LED drive current is flowing to counter the LED forward-bias voltage drop VF. The longer the device can operate in the high output efficiency ×1.0 mode, the lower the total current consumption and the longer the battery drive time can be extended. Furthermore, the more that low VF LEDs and lower LED drive current are used, the longer the device can operate automatically in ×1.0 mode.
1.0 mode (high efficiency)
High VF LED
1.5 mode
2.0 mode (low efficiency)
1.0 mode (high efficiency)
Low VF LED High
1.5 mode
2.0 mode (low efficiency)
VIN input
Low
VOUT mode switching time comparison due to drive LED “VF” variation The LED low-current detector circuit switches the output boost mode whenever a single insufficient current condition is detected among the 4 channel LED drive currents, hence drive LEDs with small VF variation should be used to increase overall efficiency. If, after startup, a LED connection to the DIN pins is switched ON/OFF, the LED current detection circuit will operate incorrectly and normal boost mode switching does not occur. Also, if LED drive current control using a DIM pin is not used, the low-current detector circuit does not operate and the boost mode does not switch to either ×1.5 or ×2.0 mode.
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SM8135A Mode Reset Function VF increases immediately after the LED current starts to flow, and then decreases as the LED temperature increases due to the heating effect of the current flow. It can take about 10 seconds for the LED temperature to stabilize and for VF to reach equilibrium, and VF may fluctuate more than 200mV. The VF fluctuation is affected by the ambient temperature and LED current setting, and has a large affect on the automatic mode switching voltage tolerances. To counter the effects of VF fluctuation, the SM8135A outputs a mode reset signal once every 1.0 seconds which automatically switches the output mode to ×1.0, and then a determination is made whether to make the ×1.0 → ×1.5 mode switch.
Mode reset
1.0sec/cycle
(1)
VOUT mode
1.5 mode
1.0 mode
1.5 mode
(2)
Mode hold L: hold
min 80µs max 200µs
ILED detector ignore
(3)
4.9V
VOUT output voltage
ILED detector
(4)
Switching from ×1.5 mode to ×1.0 mode due to mode reset signal (1) Mode reset signal is output once every 1.0 seconds. (2) Mode switches from ×1.5 to ×1.0 mode on the rising edge of the mode reset signal. (3) A 200µs (max) mode hold time begins after switching to ×1.0 mode. LED drive current insufficient state is detected but the mode is not switched during this interval. (4) LED drive current insufficient signal is ignored during the mode hold time, but normal mode switching operation resumes when the mode hold time elapses.
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SM8135A A mode hold signal of 200µs (max) duration is output immediately after switching to ×1.0 mode. The VOUT output is held in ×1.0 mode and any LED drive current insufficient detection signal is ignored during the mode hold signal output. For example, if the VIN voltage drops and the VOUT output voltage in ×1.0 mode cannot provide sufficient current to drive the LEDs, a LED drive current insufficient condition occurs momentarily due to the mode reset. The LED low-current detector circuit outputs a LED drive current insufficient signal immediately after switching modes, but during the mode hold time the device stays in ×1.0 mode and does not switch to ×1.5 mode. Consequently, the VOUT voltage drops and the LED brightness decreases during the 85µs (min) to 200µs (max) mode hold time. However, a 200µs decrease in the brightness is not a problem as it is not perceptible to the human eye.
1.0
VIN input voltage
1.5 threshold
Mode reset
1.0sec
VOUT mode
max 200µS
Mode hold (L: hold) 4.9V
VOUT output voltage
ILED detector (H: lack)
VOUT drop due to mode reset signal (between ×1.5 and ×1.0 mode)
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SM8135A The mode reset operation when in ×2.0 mode performs boost mode switching between ×2.0 mode and ×1.5 mode. Mode switching directly from ×2.0 mode to ×1.0 mode does not occur.
Mode reset
1.0sec/cycle
VOUT mode
2.0 mode
1.5 mode
2.0 mode
Mode hold (L: hold)
min 80µs max 200µs
ILED detector ignore
4.9V
VOUT output voltage
ILED detector
Switching from ×2.0 mode to ×1.5 mode due to mode reset signal (1) Mode switches from ×2.0 to ×1.5 mode on the rising edge of the mode reset signal. (2) A 200µs (max) mode hold time begins after switching to ×1.5 mode. LED drive current insufficient state is detected but the mode is not switched during this interval. (3) LED drive current insufficient signal is ignored during the mode hold time, but normal mode switching operation resumes when the mode hold time elapses. The mode reset function periodically tests the boost mode to try to maximize the duration of operation in the higher efficiency ×1.0 and ×1.5 modes in order to extend battery drive time.
Thermal Shutdown Circuit (Overtemperature Protection Circuit)
The SM8135A features a thermal shutdown circuit that operates whenever the IC temperature exceeds approximately 170°C for whatever reason, stopping the VOUT output. VOUT output recommences when the IC temperature falls below approximately 150°C.
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SM8135A
PERIPHERAL PARTS
About the External Capacitors
The best capacitors for use with the SM8135A are multi-layer ceramic capacitors. When selecting a multi-layer ceramic capacitor, only X5R and X7R dielectric types are strongly recommended, since the loss of capacitance in various conditions is less than other types such as Z5U and Y5V. The much loss of capacitance in various conditions may cause the output voltage unstable.
Table. The EIA three digit "TC" code
Lower temperature limit X = −55°C Y = −30°C Z = +10°C High temperature limit 5 = +85°C 6 = +105°C 7 = +125°C 8 = +150°C Maximum allowable capacitance change from +25°C (0V DC) F = ± 7.5% P = ± 10% R = ± 15% S = ± 22% T = +22%/−33% U = +22%/−56% V = +22%/−82% For example : X5R
About the Input Capacitor "C4"
The parts layout of PCB may merely cause the “VOUT” output voltage unstable. In this case, increasing the “C4” input capacitance value or adding another capacitor on the VIN input line is effective to solve the unstable output voltage.
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SM8135A
TYPICAL APPLICATION CIRCUITS
LED × 4, ILED = 20mA, without Dimming
C1 = 1µF C1M C1P C2 = 1µF C2M C2P
2.7 to 4.6V C4 = 1µF
VIN
Charge pump 1/ 1.5/ 2
VOUT
C3 = 1µF
20mA 4 DIN1 Mode control & Output voltage control & Protection Current control & Current detect
DIN2
TSD
DIN3
DIN4
EN
Control logic
ISET
RSET = 120kΩ
NC (open at any time)
GND
GND
PGND
Note. If the driving LED is less than 4 pcs, unused DIN pins should be connect to GND. ON/OFF control is performed using Enable signal input on EN with a fixed LED current determined by resistor RSET.
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SM8135A
LED × 4, ILED MAX = 20mA, PWM Pulse Input Dimming on EN
C1 = 1µF C1M C1P C2 = 1µF C2M C2P
2.7 to 4.6V C4 = 1µF
VIN
Charge pump 1/ 1.5/ 2
VOUT
C3 = 1µF
MAX 20mA 4 DIN1 Mode control & Output voltage control & Protection Current control & Current detect
DIN2
TSD
DIN3
DIN4
EN 10kHz to 100kHz
Control logic
ISET
RSET = 120kΩ
NC (open at any time)
GND
GND
PGND
Note. If the driving LED is less than 4 pcs, unused DIN pins should be connect to GND. Dimming and ON/OFF control is performed using PWM pulse input on EN with a maximum LED current determined by resistor RSET (see P.6 “Setting LED current using PWM signal input on EN”). The PWM control signal duty ratio must be in the range 10 to 100% (see “Electrical Characteristics”). The PWM control signal frequency must be in the range 10kHz to 100kHz (see “Electrical Characteristics”).
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SM8135A
LED × 3, ILED MAX = 20mA, PWM Pulse Input Dimming on EN
C1 = 1µF C1M C1P C2 = 1µF C2M C2P
2.7 to 4.6V C4 = 1µF
VIN
Charge pump 1/ 1.5/ 2
VOUT C3 = 1µF MAX 20mA 3 DIN1
Mode control & Output voltage control & Protection Current control & Current detect
DIN2
TSD
DIN3
DIN4 (connect to ground)
EN 10kHz to 100kHz
Control logic
ISET
RSET = 120kΩ NC (open at any time) GND GND PGND
Note. If the driving LED is less than 4 pcs, unused DIN pins should be connect to GND. Dimming and ON/OFF control is performed using PWM pulse input on EN with a maximum LED current determined by resistor RSET (see P.6 “Setting LED current using PWM signal input on EN”). The PWM control signal duty ratio must be in the range 10 to 100% (see “Electrical Characteristics”). The PWM control signal frequency must be in the range 10kHz to 100kHz (see “Electrical Characteristics”).
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SM8135A
LED × 2, ILED MAX = 29.3mA, PWM Pulse Input Dimming on EN
C1 = 1µF C1M C1P C2 = 1µF C2M C2P
2.7 to 4.6V C4 = 1µF
VIN
Charge pump 1/ 1.5/ 2
VOUT C3 = 1µF MAX 29.3mA 2 DIN1
Mode control & Output voltage control & Protection Current control & Current detect
DIN2
TSD
DIN3 (connect to ground)
DIN4 (connect to ground)
EN 10kHz to 100kHz
Control logic
ISET
RSET = 82kΩ NC (open at any time) GND GND PGND
Note. If the driving LED is less than 4 pcs, unused DIN pins should be connect to GND. Dimming and ON/OFF control is performed using PWM pulse input on EN with a maximum LED current determined by resistor RSET (see P.6 “Setting LED current using PWM signal input on EN”). The PWM control signal duty ratio must be in the range 10 to 100% (see “Electrical Characteristics”). The PWM control signal frequency must be in the range 10kHz to 100kHz (see “Electrical Characteristics”).
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SM8135A
FOOTPRINT PATTERN
3.6 ± 0.1 2.2 ± 0.1 0.5 × 3 = 1.5 ± 0.05
0.
32
0.5 × 3 = 1.5 ± 0.05
3.6 ± 0.1
2.2 ± 0.1
0.25 ± 0.05
0.7 ± 0.1
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SM8135A
Please pay your attention to the following points at time of using the products shown in this document. The products shown in this document (hereinafter “Products”) are not intended to be used for the apparatus that exerts harmful influence on human lives due to the defects, failure or malfunction of the Products. Customers are requested to obtain prior written agreement for such use from SEIKO NPC CORPORATION (hereinafter “NPC”). Customers shall be solely responsible for, and indemnify and hold NPC free and harmless from, any and all claims, damages, losses, expenses or lawsuits, due to such use without such agreement. NPC reserves the right to change the specifications of the Products in order to improve the characteristic or reliability thereof. NPC makes no claim or warranty that the contents described in this document dose not infringe any intellectual property right or other similar right owned by third parties. Therefore, NPC shall not be responsible for such problems, even if the use is in accordance with the descriptions provided in this document. Any descriptions including applications, circuits, and the parameters of the Products in this document are for reference to use the Products, and shall not be guaranteed free from defect, inapplicability to the design for the mass-production products without further testing or modification. Customers are requested not to export or re-export, directly or indirectly, the Products to any country or any entity not in compliance with or in violation of the national export administration laws, treaties, orders and regulations. Customers are requested appropriately take steps to obtain required permissions or approvals from appropriate government agencies.
SEIKO NPC CORPORATION
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NC0602AE 2007.01
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