LTC2950-1/LTC Pushbutton On/Off Controller. Features. Description. Applications. Typical Application
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1 LTC295-1/LTC295-2 Pushbutton On/Off Controller Features n Adjustable Pushbutton On/Off Timers n Low Supply Current: 6µA n Wide Operating Voltage Range: 2.7V to 26.4V n Output (LTC295-1) Allows DC/DC Converter Control n Output (LTC295-2) Allows Circuit Breaker Control n Simple Interface Allows Graceful µp Shut Down n High Input Voltage Pin with Internal Pull Up Resistor n ±1kV ESD HBM on Input n Accurate.6V Threshold on Comparator Input n 8-Pin 3mm 2mm DFN and ThinSOT Packages Applications n Portable Instrumentation Meters n Blade Servers n Portable Customer Service PDA n Desktop and Notebook Computers Description The LTC 295 is a micropower, wide input voltage range, pushbutton ON/OFF controller. The part contains a pushbutton input with independently programmable ON and OFF debounce times that control the toggling of an open drain enable output. The part also contains a simple microprocessor interface to allow for proper system housekeeping prior to power down. Under system fault conditions, an internal timer ensures proper power down. The LTC295 operates over a wide 2.7V to 26.4V input voltage range to accommodate a wide variety of input power supplies. Very low quiescent current (6µA typical) makes the LTC295 ideally suited for battery powered applications. Two versions of the part are available to accommodate either positive or negative enable polarities. The parts are available in either 8-lead 3mm 2mm DFN or ThinSOT packages. L, LT, LTC, LTM, Linear Technology and the Linear logo are registered trademarks and ThinSOT and PowerPath are trademarks of Linear Technology Corporation. All other trademarks are the property of their respective owners. Typical Application 2.7V TO 26.4V V OUT Turn On Debounce DC/DC BUCK SHDN** R1 1k 2V/DIV GND LTC295-1 ONT OFFT µp/µc C ONT *.33µF C OFFT *.33µF 295 TA1 1ms/DIV 295 TA1b *OPTIONAL **SHDN ERNALLY PULLED UP BY DC/DC 1
2 LTC295-1/LTC295-2 Absolute Maximum Ratings (Note 1) Supply Voltage ( )....3V to 33V Input Voltages... 6V to 33V ONT....3V to 2.7V OFFT....3V to 2.7V....3V to 7V Output Voltages....3V to 1V /....3V to 1V Operating Temperature Range LTC295C-1... C to 7 C LTC295C-2... C to 7 C LTC295I C to 85 C LTC295I C to 85 C Storage Temperature Range DFN Package C to 125 C TSOT C to 15 C Lead Temperature (Soldering, 1 sec)...3 C Pin Configuration TOP VIEW GND ONT / OFFT 1 2 ONT 3 GND 4 TOP VIEW 8 7 OFFT 6 / 5 DDB8 PACKAGE 8-LEAD (3mm 2mm) PLASTIC DFN T JMAX = 125 C, θ JA = 165 C/W EXPOSED PAD (PIN 9) PCB GND CONNECTION OPTIONAL TS8 PACKAGE 8-LEAD PLASTIC TSOT-23 T JMAX = 125 C, θ JA = 14 C/W Order Information Lead Free Finish TAPE AND REEL (MINI) TAPE AND REEL PART MARKING* PACKAGE DESCRIPTION TEMPERATURE RANGE LTC295CDDB-1#TRMF LTC295CDDB-1#TRF LBKP 8-Lead Plastic DFN C to 7 C LTC295CDDB-2#TRMF LTC295CDDB-2#TRF LBNG 8-Lead Plastic DFN C to 7 C LTC295IDDB-1#TRMF LTC295IDDB-1#TRF LBKP 8-Lead Plastic DFN 4 C to 85 C LTC295IDDB-2#TRMF LTC295IDDB-2#TRF LBNG 8-Lead Plastic DFN 4 C to 85 C LTC295CTS8-1#TRMF LTC295CTS8-1#TRF LTBKN 8-Lead Plastic TSOT-23 C to 7 C LTC295CTS8-2#TRMF LTC295CTS8-2#TRF LTBNF 8-Lead Plastic TSOT-23 C to 7 C LTC295ITS8-1#TRMF LTC295ITS8-1#TRF LTBKN 8-Lead Plastic TSOT-23 4 C to 85 C LTC295ITS8-2#TRMF LTC295ITS8-2#TRF LTBNF 8-Lead Plastic TSOT-23 4 C to 85 C TRM = 5 pieces. *Temperature grades are identified by a label on the shipping container. Consult LTC Marketing for parts specified with wider operating temperature ranges. Consult LTC Marketing for information on lead based finish parts. For more information on lead free part marking, go to: For more information on tape and reel specifications, go to: 2
3 LTC295-1/LTC295-2 Electrical Characteristics The l denotes the specifications which apply over the full operating temperature range, otherwise specifications are at. = 2.7V to 26.4V, unless otherwise noted. (Note 2) SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS Supply Voltage Range Steady State Operation l V I IN Supply Current System Power On, = 2.7V to 24V l 6 12 µa V UVL Undervoltage Lockout Falling l V V UVL(HYST) Undervoltage Lockout Hysteresis mv Pushbutton, Enable (, /) V (MIN, MAX) Voltage Range Single-Ended l V I Input Current 2.5V < V < 26.4V V = 1V V =.6V V (VTH) Input Threshold Falling l V V (VOC) Open Circuit Voltage I = 1µA V t /, Lock Out / Lock Out Time (Note 5) Enable Released Enable Asserted l ms I /(LKG) / Leakage Current V / = 1V, Sink Current Off l ±.1 µa V /(VOL) / Voltage Output Low I / = 3mA l.11.4 V Debounce Timing Pins (ONT, OFFT) I ONT, OFFT(PU) ONT/OFFT Pull Up Current V ONT, OFFT = V l µa I ONT, OFFT(PD) ONT/OFFT Pull Down Current V ONT, OFFT = 1.3V l µa t DB, On Internal Turn On Debounce Time ONT Pin Float, Falling Enable Asserted l ms t ONT Additional Adjustable Turn On Time C ONT = 15pF l ms t DB, Off Internal Turn Off Debounce Time OFFT Pin Float, Falling Falling l ms t OFFT Additional Adjustable Turn Off Time C OFFT = 15pF l ms µp Handshake Pins (, ) I (LKG) Leakage Current T = 3V l ±1 µa T(VOL) Output Voltage Low I = 3mA l.11.4 V V (TH) Input Threshold Voltage Falling l V V (HYST) Input Threshold Hysteresis mv I (LKG) Leakage Current V =.6V ±.1 µa t (PW) Minimum Pulse Width l 3 µs t (PD) Propagation Delay Falling Enable Released l 3 µs t, On Blank Turn On Blanking (Note 3) = Low, Enable Asserted Enable Released l ms t, Off Delay Turn Off Delay (Note 4) = High, Asserted Enable Released l ms l l l ± µa µa µa Note 1: Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. Exposure to any Absolute Maximum Rating condition for extended periods may affect device reliability and lifetime. Note 2: All currents into pins are positive; all voltages are referenced to GND unless otherwise noted. Note 3: The turn on blanking timer period is the waiting period immediately after the enable output is asserted. This blanking time allows sufficient time for the DC/DC converter and the µp to perform power up tasks. The and inputs are ignored during this period. If remains low at the end of this time period, the enable output is released, thus turning off system power. This time delay does not include t DB, ON or t ONT. Note 4: The turn off delay is the maximum delay from the initiation of a shutdown sequence ( falling), to the release of the enable output. If the input switches low at any time during this period, enable is released, thus turning off system power. This time is internally fixed at 124ms. This time delay does not include t DB, OFF or t OFFT. Note 5: The enable lock out time is designed to allow an application to properly power down such that the next power up sequence starts from a consistent powered down configuration. is ignored during this lock out time. This time delay does not include t DB, ON or t ONT. 3
4 LTC295-1/LTC295-2 Typical Performance Characteristics Supply Current vs Temperature 1 = 26.4V 8 Supply Current vs Supply Voltage Internal Default Turn On Debounce Time (t DB, ON ) vs I VIN (µa) 6 4 = 3.3V = 2.7V I VIN (µa) 6 4 t DB, ON (ms) TEMPERATURE ( C) (V) (V) 295 G1 295 G2 295 G3 Turn On Debounce Time (t DB, ON + t ONT ) vs ONT External Capacitor ONT Pull-Down Current vs Temperature Internal Default Turn Off Debounce Time (t DB, OFF ) vs 1 = 3.3V t DB, ON + t ONT (ms) 1 1 ONT PULL-DOWN CURRT (µa) = 2.7V = 26.4V t DB, OFF (ms) ONT EXTERNAL CAPACITOR (nf) TEMPERATURE ( C) (V) G4 295 G5 295 G6 Turn Off Debounce Time (t DB, OFF + t OFFT ) vs OFFT External Capacitor OFFT Pull-Down Current vs Temperature Current vs Voltage t DB, OFF + t OFFT (ms) = 3.3V OFFT PULL-DOWN CURRT (µa) = 2.7V = 26.4V CURRT (µa) = 3.3V OFFT EXTERNAL CAPACITOR (nf) TEMPERATURE ( C) VOLTAGE (V) 295 G7 295 G8 295 G9 4
5 Typical Performance Characteristics LTC295-1/LTC295-2 Voltage vs External Resistance to Ground / V OL vs Current Load 3 25 = 3.3V 5 4 = 3.3V VOLTAGE (mv) T A = 1 C T A = 45 C / VOLTAGE (mv) EXTERNAL RESISTANCE TO GROUND (kω) 295 G / CURRT LOAD (ma) 295 G (LTC295-1) Voltage vs 1k PULL-UP FROM TO 4 3 (LTC295-2) Voltage vs 1k PULL-UP FROM TO (V).6.4 (V) (V) (V) 295 G G13 5
6 LTC295-1/LTC295-2 Pin Functions (TSOT-23/DFN) (Pin 1/Pin 4): Power Supply Input: 2.7V to 26.4V. (Pin 2/Pin 3): Pushbutton Input. Connecting to ground through a momentary switch provides on/off control via the / pin. An internal 1k pull-up resistor connects to an internal 1.9V bias voltage. The rugged input can be pulled up to 26.4V externally without consuming extra current. ONT (Pin 3/Pin 2): Additional Adjustable Turn On Time Input. Placing an external capacitor to ground determines the additional time (beyond the internal default 32ms) the pin must be held low before the enable output is asserted. Floating this pin results in a default turn on debounce time of 32ms. GND (Pin 4/Pin 1): Device Ground. (Pin 5/Pin 8): Open Drain Interrupt Output. After a pushbutton turn-off event is detected, the LTC295 interrupts the system (µp) by bringing the pin low. Once the system finishes its power down and housekeeping tasks, it sets low, which in turn releases the enable output. If at the end of the power down timer (124ms) is still high, the enable output is released immediately. may optionally be tied to to release the enable output immediately after the turn-off event has been detected ( = low). (LTC295-1, Pin 6/Pin 7): Open Drain Enable Output. This pin is intended to enable system power. is asserted high after a valid turn on event. is released low if: a) is not driven high (by µp) within 512ms of the initial valid power turn-on event, b) is driven low during normal operation, c) a second valid event (power turn-off) is detected. This pin can connect directly to a DC/DC converter shutdown pin that provides an internal pull-up. Otherwise a pull-up resistor to an external supply is required. The operating range for this pin is V to 1V. (LTC295-2, Pin 6/Pin 7): Open Drain Enable Output. This pin is intended to enable system power. is asserted low after a valid turn-on event. releases high if: a) is not driven high (by µp) within 512ms of the initial valid power turn-on event, b) is driven low during normal operation, c) a second valid event (power turn-off) is detected. This pin can connect directly to a DC/DC converter shutdown pin that provides an internal pull-up. Otherwise a pull-up resistor to an external supply is required. The operating range of this pin is V to 1V. OFFT (Pin 7/Pin 6): Additional Adjustable Turn Off Time Input. A capacitor to ground determines the additional time (beyond the internal default 32ms) that the pin must be held low before initiating a power down sequence ( falling). Floating this pin results in a default turn off time of 32ms. (Pin 8/Pin 5): Input. Forcing low releases the enable output. During system turn on, this pin is blanked by a 512ms internal timer to allow the system to pull high. This pin has an accurate.6v threshold and can be used as a voltage monitor input. If unused, connect to a low voltage output supply (see Figure 6). Exposed Pad (Pin 9): Exposed Pad may be left open or connected to device ground. 6
7 Block Diagram LTC295-1/LTC295-2 / 2.7V TO 26.4V REGULATOR 2.4V 2.4V 1k OSCILLATOR LOGIC 1µS FILTER DEBOUNCE.6V.8V OSCILLATOR GND ONT OFFT 295 BD Timing Diagrams t (PW) t (PD) / 295 TD1 7
8 LTC295-1/LTC295-2 TIMING DiagramS & IGNORED t DB, ON t ONT t, ON BLANK 16 CYCLES (LTC295-1) (LTC295-2) 295 TD2 Power On Timing IGNORED t DB, OFF t OFFT OFFT 16 CYCLES t, OFF DELAY (LTC295-1) (LTC295-2) 295 TD3 Power Off Timing, >.6V 8
9 Applications Information Description The LTC295 is a low power (6µA), wide input voltage range (2.7V to 26.4V), pushbutton on/off controller that can interface to a µp and a power supply. The turn-on and turn-off debounce times are extendable using optional external capacitors. A simple interface ( output, input) allows a system to power on and power off in a controlled manner. Turn On When power is first applied to the LTC295, the part initializes the output pins. Any DC/DC converters connected to the / pin will therefore be held off. To assert the enable output, must be held low for a minimum of 32ms (t DB, ON ). The LTC295 provides additional turn on debounce time via an optional capacitor connected to the ONT pin (t ONT ). The following equation describes the additional time that must be held low before asserting the enable output. C ONT is the ONT external capacitor: C ONT = 1.56E-4 [µf/ms] (t ONT 1ms) Once the enable output is asserted, any DC/DC converters connected to this pin are turned on. The input from the µp is ignored during a succeeding 512ms blanking time (t, ON BLANK). This blanking time represents the maximum time required to power up the DC/DC converter and the µp. If is not brought high during this 512ms time window, the enable output is released. The assumption is that 512ms is sufficient time for the system to power up. Turn Off To initiate a power off sequence, must be held low for a minimum of 32ms (t DB, OFF ). Additional turn off debounce time may be added via an optional capacitor connected to the OFFT pin (t OFFT ). The following equation describes the additional time that must be held low to initiate a power off sequence. C OFFT is the OFFT external capacitor: C OFFT = 1.56E-4 [µf/ms] (t OFFT 1ms) Once has been validly pressed, is switched low. This alerts the µp to perform its power down and housekeeping tasks. The power down time given to the µp is 124ms. LTC295-1/LTC295-2 Note that the input can be pulled low (thereby releasing the enable output) at any time after t, ON BLANK period. Simplified Power On/Off Sequence Figure 1 shows a simplified LTC295-1 power on and power off sequence. A high to low transition on (t 1 ) initiates the power on sequence. This diagram does not show any bounce on. In order to assert the enable output, the pin must stay low continuously ( high resets timers) for a time controlled by the default 32ms and the external ONT capacitor (t 2 t 1 ). Once goes high (t 2 ), an internal 512ms blanking timer is started. This blanking timer is designed to give sufficient time for the DC/DC converter to reach its final voltage, and to allow the µp enough time to perform power on tasks. The pin must be pulled high within 512ms of the pin going high. Failure to do so results in the pin going low 512ms after it went high. ( = low, see Figure 2). Note that the LTC295 does not sample and until after the 512ms internal timer has expired. The reason is ignored is to ensure that the system is not forced off while powering on. Once the 512ms timer expires (t 4 ), the release of the pin is then debounced with an internal 32ms timer. The system has now properly powered on and the LTC295 monitors and (for a turnoff command) while consuming only 6µA of supply current. A high to low transition on (t 5 ) initiates the power off sequence. must stay low continuously ( high resets debounce timer) for a period controlled by the default 32ms and the external OFFT capacitor (t 6 t 5 ). At the completion of the OFFT timing (t 6 ), an interrupt () is set, signifying that will be switched low in 124ms. Once a system has finished performing its power down operations, it can set low (t 7 ) and thus immediately set low), terminating the internal 124ms timer. The release of the pin is then debounced with an internal 32ms timer. The system is now in its reset state: where the LTC295 is in low power mode (6µA). is monitored for a high to low transition. 9
10 LTC295-1/LTC295-2 Applications Information t 1 t 2 t 3 t 4 t 5 t 6 t 7 & IGNORED IGNORED t DB, ON t ONT t, ON BLANK t DB, OFF < t, OFF DELAY ONT t OFFT OFFT <t, OFF DELAY 295 F1 Figure 1. Simplified Power On/Off Sequence for LTC295-1 t ABORT t DB, ON + t ONT 512ms ERNAL TIMER POWER ON TIMING µp FAILED TO SET HIGH POWER TURNED OFF 295 F2 Figure 2. Aborted Power On Sequence for LTC
11 Applications Information Aborted Power On Sequence The power on sequence is aborted when the remains low after the end of the 512ms blanking time. Figure 2 is a simplified version of an aborted power on sequence. At time t ABORT, since is still low, pulls low (thus turning off the DC/DC converter). µp Turns Off Power During Normal Operation Once the system has powered on and is operating normally, the µp can turn off power by setting low, as shown in Figure 3. At time t, is set low by the µp. This immediately pulls low, thus turning off the DC/ DC converter. DC/DC Turn Off Blanking When the DC/DC converter is turned off, it can take a significant amount of time for its output to decay to ground. It is desirable to wait until the output of the DC/DC converter is near ground before allowing the user (via ) to restart the converter. This condition guarantees that the µp has always powered down completely before it is restarted. LTC295-1/LTC295-2 Figure 4 shows the µp turning power off. After a low on releases enable, the internal 256ms timer ignores the pin. This is shown as t /, LOCKOUT in Figure 4. LTC295-1, LTC295-2 Versions The LTC295-1 (high true ) and LTC295-2 (low true ) differ only by the polarity of the / pin. Both versions allow the user to extend the amount of time that the must be held low in order to begin a valid power on/ off sequence. An external capacitor placed on the ONT pin adds additional time to the turn on time. An external capacitor placed on the OFFT pin adds additional time to the turn off time. If no capacitor is placed on the ONT (OFFT) pin, then the turn on (off) duration is given by an internally fixed 32ms timer. The LTC295 fixes the turn off delay time (t, OFF DELAY) at 124ms. This means that the / pin will be switched low/high a maximum of 124ms after initiating a valid turn off sequence. Note that in a typical application, a µp or µc would set low prior to the 124ms timer period (t 7 in Figure 1). t /, LOCKOUT POWER ON IGNORED t DC/DC TURNS OFF BLANKING DC/DC TURNS OFF 256ms µp SETS LOW µp SETS LOW XXX DON T CARE XXX DON T CARE 295 F3 295 F4 Figure 3. µp Turns Off Power (LTC295-1) Figure 4. DC/DC Turn Off Blanking (LTC295-1) 11
12 LTC295-1/LTC295-2 Applications Information The following equations describe the turn on and turn off times. C ONT and C OFFT are the external programming capacitors: t BD,ON + t ONT = 32ms + 1ms + (6.7x1 6 ) C ONT t BD,OFF + t OFFT = 32ms + 1ms + (6.7x1 6 ) C OFFT High Voltage Pins The and pins can operate at voltages up to 26.4V. can, additionally, operate below ground ( 6V) without latching up the device. has an ESD HBM rating of ±1kV. If the pushbutton switch connected to exhibits high leakage current, then an external pull-up resistor to is recommended. Furthermore, if the pushbutton switch is physically located far from the LTC295 pin, parasitic capacitances may couple onto the high impedance input. Additionally, parasitic series inductance may cause unpredictable ringing at the pin. Placing a 5k resistor from the pin to the pushbutton switch would mitigate parasitic inductance problems. Placing a.1µf capacitor on the pin would lessen the impact of parasitic capacitive coupling. Typical Applications Voltage Monitoring with Input The pin can be used as a voltage monitor. Figure 5 shows an application where the pin has a dual function. It is driven by a low leakage open drain output of the µp. It is also connected to a resistor divider that monitors battery voltage ( ). When the battery voltage falls below the set value, the voltage at the pin falls below.6v and the pin is quickly pulled low. Note that the resistor values should be as large as possible, but small enough to keep leakage currents from tripping the.6v comparator. The DC/DC converter shown has an internal pull-up current on its SHDN pin. A pull-up resistor on is thus not needed. Operation Without µp Figure 6 shows how to connect the pin when there is no circuitry available to drive it. The minimum pulse width detected is 3µs. If there are glitches on the resistor pull-up voltage that are wider than 3µs and transition 9V V OUT 3.3V 9V V OUT 3.3V LT SHDN** LT SHDN** C4.1µF 5.4V THRESHOLD LTC295-1 GND ONT OFFT R3 86k 1% R2 1k 1% R1 1k µp (OP DRAIN) C4.1µF LTC295-1 GND ONT OFFT + R1 1k C3*.1µF 295 F5 12 C ONT *.33µF C OFFT *.33µF *OPTIONAL **SHDN ERNALLY PULLED UP BY THE LT Figure 5. Input Voltage Monitoring with Input C ONT *.33µF C OFFT *.33µF *OPTIONAL **SHDN ERNALLY PULLED UP BY THE LT Figure 6. No µp Application 295 F6
13 Typical Applications below.6v, then an appropriate bypass capacitor should be connected to the pin. PowerPath Switching The open drain output of the LTC295-2 is designed to switch on/off an external power PFET. This allows a user to connect/disconnect a power supply (or battery) to its load by toggling the pin. Figure 7 shows the LTC295-2 controlling a two cell Li-Ion battery application. The and pins are connected to the output of the PFET through a resistor divider. The pin serves as a voltage monitor. When V OUT drops below 6V, the pin is open circuited 3µs later. LTC295-1/LTC295-2 Pin in a Noisy Environment The rugged pin is designed to operate in noisy environments. Transients below ground (> 6V) and above (<3V) will not damage the rugged pin. Additionally, the pin can withstand ESD HBM strikes up to ±1kV. In order to keep external noise from coupling inside the LTC295, place an R-C network close to the pin. A 5k resistor and a.1µf capacitor should suffice for most noisy applications (see Figure 8). External Pull-Up Resistor on An internal pull-up resistor on the pin makes an external pull-up resistor unnecessary. Leakage current on R5 1K M1 V OUT V OUT,TRIP PO = 6V 4.2V SINGLE CELL Li-Ion BATTERY 4.2V SINGLE CELL Li-Ion BATTERY + C4.1µF CERAMIC + LTC295-2 GND ONT OFFT C ONT *.33µF OP DRAIN OUTPUT V TH =.6PUT C OFFT *.33µF *OPTIONAL R4 1k 1% R1 99k 1% OPTIONAL GLITCH FILTER CAPACITOR C3*.1µF 295 F7 Figure 7. PowerPath Control with 6V Undervoltage Detect PARASITICS TRACE CAPACITANCE NOISE R6 5k LTC295-1 TRACE INDUCTANCE C5.1µF GND ONT OFFT DETAILS OMITTED FOR CLARITY 295 F8 Figure 8. Noisy Trace 13
14 LTC295-1/LTC295-2 Typical Applications the board trace, however, will affect the open circuit voltage on the pin. If the leakage is too large (>2µA), the voltage may fall close to the threshold window. To mitigate the effect of the board leakage, a 1k resistor to is recommended (see Figure 9). Reverse Battery Protection To protect the LTC295 from a reverse battery connection, place a 1k resistor in series with the pin (see Figure 1). LTC295-1/ LTC V R7 1k EXTERNAL BOARD LEAKAGE CURRT 1k >2µA IF EXTERNAL PARASITIC BOARD LEAKAGE >2µA, USE EXTERNAL PULL-UP RESISTOR GND PINS OMITTED FOR CLARITY 295 F9 Figure 9. External Pull-Up Resistor on Pin 14
15 Package Description DDB Package 8-Lead Plastic DFN (3mm 2mm) (Reference LTC DWG # Rev B) LTC295-1/LTC ± ±.5.61 ±.5 (2 SIDES).25 ±.5.5 BSC 2.2 ±.5 (2 SIDES).7 ±.5 PACKAGE OUTLINE RECOMMDED SOLDER PAD PITCH AND DIMSIONS PIN 1 BAR TOP MARK (SEE NOTE 6).2 REF 3. ±.1 (2 SIDES) 2. ±.1 (2 SIDES).75 ±.5.5 R =.5 TYP.56 ±.5 (2 SIDES) R =.115 TYP 5.4 ± ±.5.5 BSC 2.15 ±.5 (2 SIDES) BOTTOM VIEW EXPOSED PAD 8 PIN 1 R =.2 OR CHAMFER (DDB8) DFN 95 REV B NOTE: 1. DRAWING CONFORMS TO VERSION (WECD-1) IN JEDEC PACKAGE OUTLINE M DRAWING NOT TO SCALE 3. ALL DIMSIONS ARE IN MILLIMETERS 4. DIMSIONS OF EXPOSED PAD ON BOTTOM OF PACKAGE DO NOT INCLUDE MOLD FLASH. MOLD FLASH, IF PREST, SHALL NOT EXCEED.15mm ON ANY SIDE 5. EXPOSED PAD SHALL BE SOLDER PLATED 6. SHADED AREA IS ONLY A REFERCE FOR PIN 1 LOCATION ON THE TOP AND BOTTOM OF PACKAGE 15
16 LTC295-1/LTC295-2 Package Description TS8 Package 8-Lead Plastic TSOT-23 (Reference LTC DWG # Rev A).4 MAX.65 REF 2.9 BSC (NOTE 4) 1.22 REF 3.85 MAX 2.62 REF 1.4 MIN 2.8 BSC (NOTE 4) PIN ONE ID RECOMMDED SOLDER PAD LAYOUT PER IPC CALCULATOR.65 BSC PLCS (NOTE 3) BSC DATUM A 1. MAX REF.9.2 (NOTE 3) NOTE: 1. DIMSIONS ARE IN MILLIMETERS 2. DRAWING NOT TO SCALE 3. DIMSIONS ARE INCLUSIVE OF PLATING 4. DIMSIONS ARE EXCLUSIVE OF MOLD FLASH AND METAL BURR 5. MOLD FLASH SHALL NOT EXCEED.254mm 6. JEDEC PACKAGE REFERCE IS MO BSC TS8 TSOT REV A 16
17 LTC295-1/LTC295-2 Revision History (Revision history begins at Rev D) REV DATE DESCRIPTION PAGE NUMBER D 2/11 Revised Typical Application. Revised Absolute Maximum Ratings and Pin Configuration. Updated Electrical Characteristics Revised and pin descriptions in Pin Functions. Updated Block Diagram Revised Figures 5 and 6. Updated Related Parts Information furnished by Linear Technology Corporation is believed to be accurate and reliable. However, no responsibility is assumed for its use. Linear Technology Corporation makes no representation that the interconnection of its circuits as described herein will not infringe on existing patent rights. 17
18 LTC295-1/LTC295-2 Typical Application 9V BATTERY + R8 1k R5 91k V OUT LT SHDN 1.8V C4.1µF LTC295-1 R1 1k µp GND ONT OFFT C ONT *.33µF C OFFT *.33µF *OPTIONAL Figure 1. Reverse Battery Protection 295 F1 Related Parts PART NUMBER DESCRIPTION COMMTS LTC29 Programmable Quad Supply Monitor Adjustable RESET, 1-Lead MSOP and 3mm 3mm DFN Packages LTC294/LTC295 Pin-Programmable Dual Supply Monitors Adjustable RESET and Tolerance, 8-Lead SOT-23 and 3mm 2mm DFN Packages LTC A Low Loss Ideal Diode in ThinSOT No External MOSFET, Automatic Switching Between DC Sources LTC4412HV PowerPath Controller in ThinSOT Efficient Diode-ORing, Automatic Switching Between DC Sources, 3V to 36V LTC455 USB Power Controller and Li-Ion Charger Automatic Switchover, Charges 1-Cell Li-Ion Batteries LTC2951 Micropower Pushbutton On/Off Controller Adjustable Power-Off Timer LTC2952 Pushbutton PowerPath Controller with Automatic Low Loss Switchover Between DC Sources Supervisor LTC2953 Pushbutton On/Off Controller with Voltage High Voltage Pushbutton Controller with 2ms Voltage Reset Monitor Monitoring LTC2954 Pushbutton On/Off Controller with µp Interrupt Allow Controlled Software System Shutdown 18 LT 211 REV D PRED IN USA Linear Technology Corporation 163 McCarthy Blvd., Milpitas, CA (48) FAX: (48) LINEAR TECHNOLOGY CORPORATION 28
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