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| ????????????????????????????????????????????????????????????????? maxim integrated products 1 typical operating circuits 19-6310; rev 0; 5/12 ordering information appears at end of data sheet. for related parts and recommended products to use with this part, refer to www.maxim-ic.com/MAX14627.related . windows mobile is a registered trademark of microsoft corporation. typical operating circuits continued at end of data sheet. general description the MAX14627/max14628 provide a simple solution for detecting the insertion and managing the operation of a 3.5mm stereo headset with a microphone. these devices integrate all circuitry needed to detect send/end button press events and generate required microphone bias volt - ages, and are fully compatible with windows mobile 7. the devices need only three gpios from the host control - ler to select between call mode and standby mode, and monitor the send/end and jack insertion status. in call mode, the low-noise ldo is enabled to provide dc bias to the externally preamplified microphone. in standby mode, microphone low-power pulsing is enabled to reduce sup - ply current while waiting for a send/end button press event. two open-drain outputs signal the host controller when an insertion/removal or send/end button press event occurs. if a 3p headset without a microphone is inserted, the low-power pulsing can be disabled by setting the mode input to high impedance. the MAX14627 operates from a 2.5v to 5.5v input voltage supply and features an internal 2.2v ldo output, while the max14628 operates from a 3.1v to 5.5v voltage supply and features an internal 2.8v ldo output voltage. both devices control jack insertion detection by monitoring a 3.5mm socket with a normally open jack insertion switch. additionally, the max14628 features open microphone detection. the MAX14627/max14628 are available in an 8-pin tdfn package, and are fully specified over the -40 n c to +85 n c extended temperature range. benefits and features s versatile jack detection and control ? m ode three-state microphone bias control ? mic switch ground detection (MAX14627) ? mic switch open and ground detection (max14628) s compatible with windows mobile 7 and google android ? microphone button press detection s high-performance mic bias and power savings ? no pop-up noises ? ultra-low noise, high-psrr mic bias ? low-power mic idle mode ? automatic ultra-low-power mode when microphone is disabled s pcb space and cost savings ? integrated 15kv esd protection (hbm) on detin and mic input terminals ? small 8-pin (2mm x 2mm) tdfn package applications cell phones portable media players tablet/laptop pcs send/ end microphone 1f mic audio direct drive 2.2ki left mic det right gnd 1f v cc 1mi v io 1mi v io swd mode cap res mic detin ep/ gnd v cc processor det max14628 MAX14627/max14628 low-power headset detectors with send/end button support evaluation kit available for pricing, delivery, and ordering information, please contact maxim direct at 1-888-629-4642, or visit maxims website at www.maxim-ic.com.
????????????????????????????????????????????????????????????????? maxim integrated products 2 MAX14627/max14628 low-power headset detectors with send/end button support (voltages referenced to gnd.) v cc , mode, swd, det .......................................... -0.3v to +6v cap, mic, res ......................................... -0.3v to (v cc + 0.3v) detin ......................................................................... -6v to +6v continuous current into any terminal .......................... q 100ma continuous power dissipation (t a = +70 n c) tdfn (derate 11.9mw/ n c above +70 n c) ................. 953.5mw operating temperature range .......................... -40 n c to +85 n c junction temperature ..................................................... +150 n c storage temperature range ............................ -65 n c to +150 n c lead temperature (soldering, 10s) ............................... +300 n c soldering temperature (reflow) ...................................... +260 n c tdfn junction-to-ambient thermal resistance ( q ja ) ....... 83.9c/w junction-to-case thermal resistance ( q jc ) ................... 37c/w absolute maximum ratings note 1: package thermal resistances were obtained using the method described in jedec specification jesd51-7, using a four- layer board. for detailed information on package thermal considerations, refer to www.maxim-ic.com/thermal-tutorial . stresses beyond those listed under absolute maximum ratings may cause permanent damage to the device. these are stress ratings only, and functional opera - tion of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. exposure to absolute maximum rating conditions for extended periods may affect device reliability. package thermal characteristics (note 1) electrical characteristics (v cc = 2.5v to 5.5v for MAX14627, v cc = 3.1v to 5.5v for max14628, c detin < 100pf, t a = -40 n c to +85 n c, unless otherwise noted. typical values are at v cc = +3.6v, t a = +25 n c.) (note 2) parameter symbol conditions min typ max units dc characteristics supply voltage range v cc MAX14627 2.5 5.5 v max14628 3.1 5.5 v cc undervoltage-lockout threshold v ccuvlo v cc rising 0.9 1.7 2.45 v v cc supply current i cc MAX14627, v cc = 2.8v mode = low, detin = high 1.3 f a mode = low, detin = low, i mic = 300 f a 11.7 mode = high, detin = low, i mic = 300 f a 800 mode = high-z, detin = low 6.0 max14628, v cc = 3.3v mode = low, detin = high 1.9 mode = low, detin = low, i mic = 300 f a 13.2 mode = high, detin = low, i mic = 300 f a 800 mode = high-z, detin = low 7.0 ????????????????????????????????????????????????????????????????? maxim integrated products 3 MAX14627/max14628 low-power headset detectors with send/end button support electrical characteristics (continued) (v cc = 2.5v to 5.5v for MAX14627, v cc = 3.1v to 5.5v for max14628, c detin < 100pf, t a = -40 n c to +85 n c, unless otherwise noted. typical values are at v cc = +3.6v, t a = +25 n c.) (note 2) parameter symbol conditions min typ max units detin pullup resistance r detin 1000 k i detin series resistance r detinint 100 k i negative current from detin i ndetin v detin = -2v 31 f a mic send/end detection threshold v micth_low 0.20 x v bias 0.22 x v bias 0.24 x v bias v mic open switch detection threshold v micth_hi max14628 0.90 x v bias 0.94 x v bias 0.98 x v bias v detin detection threshold v detinth falling edge 1/3 x v cc 1/2 x v cc 2/3 x v cc v mode pullup resistance for high-z detection r mode_hi 200 k i mode pulldown resistance for high-z detection r mode_lo 200 k i linear regulator (cap) output current limit i cap v cap = 0v 4 ma ldo output voltage v ldo MAX14627, v cc = 2.8v 2.0 2.2 2.45 v max14628, v cc = 3.3v 2.55 2.8 3.1 ldo psrr psrr ldo noise from v cc to cap, f = 217hz, v cc = 2.8v 0.1v, i cap = 300 f a, mode = high 100 db ldo noise n ldo v cc = 2.8v, i mic = 300 f a, f = 100hz to 4000hz 11 f v rms ldo turn-off time t ldo_off MAX14627, v cc = 2.8v, r l = 2k i , v cap from 90% to 10% 60 f s max14628, v cc = 3.3v, r l = 2k i , v cap from 90% to 10% 60 minimum bypass capacitance c out (note 3) 0.22 f f digital signals (mode, swd, det) input logic-high voltage v ih 1.4 v input logic-low voltage v il 0.4 v mode average current i mode_low pulsing with 1/64 duty cycle from mode terminal when mode = low, detin = low (note 4) 1 f a mode input resistance r mode_hi when mode = high, detin = low 120 220 380 k i mode external maximum leakage i mode_lkg when mode = high-z (note 3) -1 +1 f a output logic-high leakage current (open drain) i oh_lkg v oh = 5v 1 f a ????????????????????????????????????????????????????????????????? maxim integrated products 4 MAX14627/max14628 low-power headset detectors with send/end button support electrical characteristics (continued) (v cc = 2.5v to 5.5v for MAX14627, v cc = 3.1v to 5.5v for max14628, c detin < 100pf, t a = -40 n c to +85 n c, unless otherwise noted. typical values are at v cc = +3.6v, t a = +25 n c.) (note 2) typical operating characteristics (v cc = 3.3v, t a = +25 n c, c detin < 100pf, unless otherwise noted.) note 2: all devices are production tested at t a = +25c. specifications over temperature are guaranteed by design. note 3: external specification requirements. note 4: guaranteed by design. parameter symbol conditions min typ max units output logic-low voltage v ol i sink = 1ma 0.4 v dynamic characteristics mode maximum load capacitance c mode (note 3) 200 pf mic low-power mode on-time t miclpo 120 f s mic low-power mode period t miclpp 8 ms high-z detection time t hizdet 16 ms mode 0 1 detection time t mode0-1 4 ms mode 1 0 detection time t mode1-0 16 ms detin debounce time t dideb falling edge 300 ms send/end debounce time t sedeb 30 ms esd protection mic, detin human body model 15 kv all other pins human body model 2 kv v cc supply current vs. voltage MAX14627 toc01 v cc (v) i cc (a) 5.0 4.5 4.0 3.5 3.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 0 2.5 5.5 t a = +85c t a = -40c t a = +25c shutdown mode, v mode = low, v detin = high 1 2 3 4 5 6 7 8 9 v cc supply current vs. voltage MAX14627 toc02 v cc (v) i cc (a) 5.0 4.5 4.0 3.5 3.0 10 0 2.5 5.5 t a = +85c t a = -40c t a = +25c mplp mode, i mic = 0a v mode = v detin = low 80 100 120 140 160 180 v cc supply current vs. voltage MAX14627 toc03 v cc (v) i cc (a) 5.0 4.5 4.0 3.5 3.0 200 60 2.5 5.5 call mode, i mic = 0a v mode = high, v detin = low t a = -40c t a = +25c t a = +85c ????????????????????????????????????????????????????????????????? maxim integrated products 5 typical operating characteristics (continued) (v cc = 3.3v, t a = +25 n c, c detin < 100pf, unless otherwise noted.) 2.1 2.2 2.3 2.4 MAX14627 cap voltage vs. v cc MAX14627 toc04 v cc (v) v cap (v) 5.0 4.5 4.0 3.5 3.0 2.5 2.0 2.5 5.5 i cap = 0ma 2.6 2.7 2.8 2.9 max14628 cap voltage vs. v cc MAX14627 toc05 v cc (v) v cap (v) 5.1 4.7 4.3 3.9 3.5 3.0 2.5 3.1 5.5 i cap = 0ma MAX14627 cap voltage vs. current MAX14627 toc06 i cap (ma) v cap (v) 6 5 4 3 2 1 0.5 1.0 1.5 2.0 2.5 3.0 0 07 v cc = 3.3v max14628 cap voltage vs. current MAX14627 toc07 i cap (ma) v cap (v) 6 5 4 3 2 1 0.5 1.0 1.5 2.0 2.5 3.0 0 07 v cc = 3.3v MAX14627 cap voltage vs. temperature MAX14627 toc08 t a (c) v cap (v) 2.1 2.2 2.3 2.4 2.5 2.0 -40 85 60 35 10 -15 v cc = 3.3v i cap = 0ma max14628 cap voltage vs. temperature MAX14627 toc09 t a (c) v cap (v) 2.6 2.7 2.8 2.9 3.0 2.5 -40 85 60 35 10 -15 v cc = 3.3v i cap = 0ma MAX14627/max14628 low-power headset detectors with send/end button support ????????????????????????????????????????????????????????????????? maxim integrated products 6 typical operating characteristics (continued) (v cc = 3.3v, t a = +25 n c, c detin < 100pf, unless otherwise noted.) MAX14627 cap dropout voltage vs. cap current MAX14627 toc10 dropout voltage (mv) 100 200 300 400 500 600 700 800 0 i cap (ma) 4 3 2 1 05 v cc = 3.2v max14628 cap dropout voltage vs. cap current MAX14627 toc11 dropout voltage (mv) 100 200 300 400 500 600 700 800 0 i cap (ma) 4 3 2 1 05 v cc = 3.8v cap power supply rejection ratio vs. frequency MAX14627 toc12 frequency (hz) psrr to cap (db) 10k 1k 100 -100 -80 -60 -40 -20 0 -120 10 100k v cc = 2.8v 0.1v cap noise density vs. frequency MAX14627 toc13 frequency (hz) noise spectral density (v/hz) 1k 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 1.1 1.2 1.3 1.4 1.5 0 100 10k microphone low-power mode operation (4ki from mic to gnd) MAX14627 toc14 1ms /d iv v mic (1v/div) detin debounce timing (v mode = low) MAX14627 toc15 100ms /d iv v res (2v/div) v detin (2v/div) MAX14627/max14628 low-power headset detectors with send/end button support ????????????????????????????????????????????????????????????????? maxim integrated products 7 typical operating characteristics (continued) (v cc = 3.3v, t a = +25 n c, c detin < 100pf, unless otherwise noted.) swd debounce timing (mode = l) MAX14627 toc16 40ms /d iv v mic (2v/div) v swd (2v/div) 3.3v 3.3v 0v 0v mic vs. mode (transitions from high to high-z) MAX14627 toc17 4ms /d iv v mode (1v/div) v mic (1v/div) v detin = low, 4ki from mic to gnd mic vs. mode (transitions from low to high-z) MAX14627 toc18 4ms / div v mode (1v/div) v mic (1v/div) v detin = low, 4ki from mic to gnd mode pulsing in high-z (v detin = low) MAX14627 toc19 2ms /d iv v mode (1v/div) v cap discharge timing MAX14627 toc20 40s / div v detin (1v/div) v cap (1v/div) MAX14627/max14628 low-power headset detectors with send/end button support ????????????????????????????????????????????????????????????????? maxim integrated products 8 MAX14627/max14628 low-power headset detectors with send/end button support pin description pin configuration pin name function 1 res resistor connection. connect an external 2.2k i resistor from res to mic for microphone biasing. 2 mode microphone mode selection three-state input. mode selects the operating mode. see the mode control input section for more information. 3 swd send/end button detection output. swd is an active-low, open-drain output. 4 det jack insertion detection output. det is asserted when there is a 3.5mm jack inserted into the socket. det is an active-low open-drain output. 5 cap internal ldo output. connect a 1 f f ceramic (x5r, x7r, or better) capacitor between cap and ground as close as possible to the device. 6 v cc supply voltage input. bypass v cc to ground with a 1 f f ceramic capacitor as close as possible to the device. 7 detin jack insertion detection input. an internal comparator monitors detin for jack insertion/ removal events. 8 mic microphone connection input. an internal comparator monitors mic for send/end button press events. ep/gnd exposed pad. the exposed pad is the ground connection for the device. connect ep/gnd to the ground plane. 13 4 + 86 5 mic v cc cap MAX14627 max14628 2 7 dentin res *ep/ gnd *connect the exposed pad (ep/gnd) to the ground plane. swd det mode tdfn top view ????????????????????????????????????????????????????????????????? maxim integrated products 9 MAX14627/max14628 low-power headset detectors with send/end button support MAX14627 functional diagram high-z detection 200ki mode cap res mic detin swd det 200ki low noise 2.2v ldo v cc v cc v bias high-z high-z mode int control and low duty cycle pulsing send / end detection (30ms debounce) jack insert detection (300ms debounce) 100ki 1mi 10ki deb_det mode int 0.22v bias v cc gnd MAX14627 ???????????????????????????????????????????????????????????????? maxim integrated products 10 MAX14627/max14628 low-power headset detectors with send/end button support max14628 functional diagram high-z detection 200ki mode cap res mic detin swd det 200ki low noise 2.8v ldo v cc v cc v bias high-z high-z mode int control and low duty cycle pulsing send/end detection (30ms debounce) jack insert detection (300ms debounce) 100ki 1mi 10ki deb_det mode int v cc gnd max14628 0.22v bias 0.94v bias ???????????????????????????????????????????????????????????????? maxim integrated products 11 MAX14627/max14628 low-power headset detectors with send/end button support detailed description the MAX14627/max14628 manage headsets by inte - grating 3.5mm jack insertion detection, microphone bias generation, and send/end button press detection. both devices feature a low-power microphone mode to reduce the high bias current required for microphone operation while it is not in use. these devices require only a single three-state input (mode) to select between call mode and two different low-power modes. see the internal ldo regulator and send/end button press detection sections for details about the differences between these two devices. internal ldo regulator the devices integrate a low-noise, low-dropout regulator (ldo) for biasing the microphone connected to mic. the ldo output voltage is set at 2.2v for the MAX14627 and 2.8v for the max14628. the ldo is enabled and enters low-noise mode (lnm) when the mode input is logic- high and a jack is detected (detin is low). pull the mode input low or leave it open to put the ldo in low-power shutdown mode (sdm). connect a 1 f f capacitor from cap to ground as close as possible to the pin. microphone operation and bias voltage generation an externally preamplified microphone is connected to mic. connect mic to res through an external 2.2k i resistor to bias the microphone. the devices generate a bias voltage (v bias ) at res. v bias is connected to the internal ldo when the ldo is on or connected to v cc when the ldo is off. microphone low-power mode (mplp) a microphone draws a large amount of current due to the 2.2k i required bias resistor when it is connected. this current is dissipated even when the microphone is not in use for audio input. this allows the send/end button detection to operate. the devices feature internal circuitry to reduce this current while simultaneously detecting send/end button press events. when a jack is inserted (detin is low and det is assert - ed low) and if mode is pulled low, these devices enter the microphone low-power mode (mplp). in this mode, mic is periodically connected to v bias (= v cc ) through the 2.2k i resistor to res only for a short duration (120 f s pulse over an 8ms period) to check for the send/end button press event (switch to gnd in both MAX14627/ max14628 and switch open in the max14628 only). the devices exit mplp when the mode input transitions to logic-high or to high-z state. note that v bias is disconnected from res when no jack is inserted and microphone low-power mode is not entered. jack insertion detection the devices monitor the detin input to detect jack inser - tion/removal events. debounce circuitry ensures that transient voltages do not force the device to enter or exit microphone low-power mode due to false jack insertion/ removal detection. detin input is capable of handling 15kv hbm esd event. the devices are designed for sockets with a normally open pin. without the 3.5mm jack inserted at detin, the input is pulled high by a large internal pullup resistor (1m i ). when the jack is plugged in, detin is pulled to ground through the detection pin of the jack. det is then asserted (after 300ms debounce time) and mic is biased according to the logic state of the mode input as follows: ? if mode is low, the external 2.2k i resistor connects mic to v cc in pulsing mode (mplp) waiting for a send/end button press event. ? if mode is high, the external 2.2k i resistor connects mic to ldo output continuously. ? if mode is high-z, mic is internally pulled down. the devices feature an internal series 100k i resistor at detin and do not require a series resistor between detin and the jack even when a direct drive audio out - put is connected to detin through the detection pin of the jack. detin withstands input voltages down to -2v. ensure that the total capacitance on detin is less than 100pf. send/end button press detection the devices monitor the mic input to detect send/end button press events. the send/end button press with the 4p microphone headset is detected and pulls the swd output low if the voltage at mic falls below the mic switch to gnd detection threshold (0.22 o v bias ) for longer than 30ms. ???????????????????????????????????????????????????????????????? maxim integrated products 12 MAX14627/max14628 low-power headset detectors with send/end button support the max14628 also features an additional send/end detection mechanism through an additional mic switch open detection threshold (0.94 o v bias ). if there is an open switch, then mic is pulled up to v bias in pulsing mode. if this happens for longer than 30ms, then the output swd is pulled low. the debounce period built into the send/end button press detection allows the mechanical send/end button to reach steady-state before applying the microphone bias. this mitigates click-and-pop noise. the send/end detection circuitry is active whenever a jack is inserted (detin is low and det is low). mode high-z state if a 3p headset without a microphone is inserted, the swd output is asserted low continuously. the user can turn off the microphone low-power mode by placing the mode input to high-z state after the recognition of a 3p jack. when in high-z state, mode is internally driven in pulsed mode. mode control input an external host processor controls the mode input. table 1 shows the behavior of these devices based on the mode input and jack insertion status. the device enters call mode when the mode pin is logic-high and a jack is detected, enabling the ldo immediately in low- noise mode (lnm). the ldo output powers v bias and is connected to the microphone (mic) through the external 2.2k i bias resistor. drive mode low to put the devices in standby mode. in standby mode, v cc powers v bias , the ldo enters shut - down mode (sdm), and the microphone bias connection either turns off permanently if no jack is inserted or enters mplp if a jack is inserted. when mode is set to high-z, both the ldo and mplp turn off. also, the swd output returns to a high-z state, which can be used as a feedback of the device. the mode input is designed to be compatible with 1.8v logic when the v cc is up to 5.5v. the mode pin must be properly controlled based on detin status to avoid the click-and-pop noise due to a headset insertion. applications information typical connections for 3.5mm jacks there are two typical 3.5mm jacks: tip-ring-ring-sleeve (trrs) with four conductors (figure 1a) and tip-ring- sleeve (trs) with three conductors (figure 1b). the most common configuration of the trrs jack is to use rings 1 and 2 for audio signals, ring 3 for ground, and ring 4 for a microphone. the trs jack typically uses rings 1 and 2 for audio signals and rings 3 and 4 as ground. supported accessories all the devices support all standard configurations of headsets with a microphone and send/end button on a trs or trrs 3.5mm jack. figure 2 shows the supported connections of the speakers, send/end button, and microphone to the jack. table 1. operating modes * mic is internally pulled down. figure 1. typical 3.5mm jacks mode low high-z high detin low high low high low high ldo mode sdm sdm lnm sdm mic bias mode mplp off off* off 2.2k i off 12 (a) 3 4 (b) 12 34 ???????????????????????????????????????????????????????????????? maxim integrated products 13 MAX14627/max14628 low-power headset detectors with send/end button support headset with no microphone when the 3.5mm jack in figure 2a is inserted, the mic input is pulled low permanently by the ground connection on the sleeve and the swd output is logic-low perma - nently. this type of headset is supported by implement - ing a timeout period in software to recognize that the permanent swd logic-low state is not due to a very long send/end button press event. in this case, the mode input pin can be placed in high-z state to disable the pulsing on the mic pin (mplp) and set the swd output in high-z state. headset with microphone and normally open send/end button in parallel when the 3.5mm jack in figure 2b is inserted, the mic input is pulled below the threshold only during a send/ end button press event. the swd output is logic-low when the send/end button is pressed for more than the 30ms (typ) debounce time. headset with normally open send/end button and resistive remote control the devices support the 3.5mm jack with a microphone and two buttons in figure 2c that is the standard windows mobile configuration. the threshold is set to detect a but - ton press, regardless of which button is pressed. headset with microphone and normally closed send/end button in series the max14628 supports the 3.5mm jack with a micro - phone and a normally closed series switch. when the switch opens for more than the 30ms (typ) debounce time (send/end button press event), the swd output asserts low. high-esd protection electrostatic discharge (esd)-protection structures are incorporated on all pins to protect against electrostatic discharges up to 2kv human body model (hbm) encountered during handling and assembly. detin and mic are further protected against esd up to 15kv (hbm) without damage. after an esd event, all the devices continue to function without latchup. esd test conditions esd performance depends on a variety of conditions. contact maxim for a reliability report that documents test setup, test methodology, and test results. figure 2. supported 3.5mm accessory configurations (a) speaker 12 34 speaker (b) speaker microphone send/ end 12 34 speaker (c) speaker microphone 12 34 speaker send/ end 600 200 (d) speaker send/ end microphone 12 34 speaker ???????????????????????????????????????????????????????????????? maxim integrated products 14 MAX14627/max14628 low-power headset detectors with send/end button support typical operating circuits (continued) send/ end microphone 1f mic audio direct drive 2.2ki left mic det right gnd 1f v cc 1mi v io 1mi v io swd mode cap res mic detin ep/ gnd v cc processor det MAX14627 ???????????????????????????????????????????????????????????????? maxim integrated products 15 MAX14627/max14628 low-power headset detectors with send/end button support ordering information + denotes a lead(pb)-free/rohs-compliant package. t = tape and reel. * ep = exposed pad. package information for the latest package outline information and land patterns (footprints), go to www.maxim-ic.com/packages . note that a +, #, or - in the package code indicates rohs status only. package drawings may show a different suffix character, but the drawing pertains to the package regardless of rohs status. chip information process: bicmos part temp range pin-package MAX14627 eta+t -40 n c to +85 n c 8 tdfn-ep* max14628 eta+t -40 n c to +85 n c 8 tdfn-ep* package type package code outline no. land pattern no. 8 tdfn-ep t822+2 21-0168 90-0065 maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a maxim product. no circuit patent licenses are implied. maxim reserves the right to change the circuitry and specifications without notice at any time. the parametric values (min and max limits) shown in the electrical characteristics table are guaranteed. other parametric values quoted in this data sheet are provided for guidance. maxim integrated products, 120 san gabriel drive, sunnyvale, ca 94086 408-737-7600 16 ? 2012 maxim integrated products maxim is a registered trademark of maxim integrated products, inc. revision history revision number revision date description pages changed 0 5/12 initial release MAX14627/max14628 low-power headset detectors with send/end button support |
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