PDF MAX14627 Data sheet ( Hoja de datos )

Número de pieza	MAX14627
Descripción	(MAX14627 / MAX14628) Low-Power Headset Detectors
Fabricantes	Maxim Integrated
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No Preview Available ! 19-6310; Rev 0; 5/12 EVALUATION KIT AVAILABLE MAX14627/MAX14628 Low-Power Headset Detectors with SEND/END Button Support General Description Benefits and Features 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 -40NC to +85NC extended temperature range. S Versatile Jack Detection and Control  MODE 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 www.DataSheet.net/ Cell Phones Portable Media Players Tablet/Laptop PCs 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 VCC 1µF MIC AUDIO DIRECT DRIVE Typical Operating Circuits continued at end of data sheet. MODE VIO VCC CAP 1MI PROCESSOR VIO 1MI SWD MAX14628 RES MIC DET DETIN EP/GND 1µF 2.2kI MIC LEFT DET RIGHT GND MICROPHONE SEND/ END �� Maxim Integrated Products 1 For pricing, delivery, and ordering information, please contact Maxim Direct at 1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com. Datasheet pdf - http://www.DataSheet4U.co.kr/ 1 page MAX14627/MAX14628 Low-Power Headset Detectors with SEND/END Button Support Typical Operating Characteristics (continued) (VCC = 3.3V, TA = +25NC, CDETIN < 100pF, unless otherwise noted.) MAX14627 CAP VOLTAGE vs. VCC 2.5 MAX14628 CAP VOLTAGE vs. VCC 3.0 2.4 2.9 2.3 2.8 2.2 2.7 2.1 ICAP = 0mA 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 VCC (V) 2.6 ICAP = 0mA 2.5 3.1 3.5 3.9 4.3 4.7 5.1 5.5 VCC (V) MAX14627 CAP VOLTAGE vs. CURRENT 3.0 2.5 2.0 1.5 1.0 0.5 VCC = 3.3V 0 0 2.5 123456 ICAP (mA) MAX14627 CAP VOLTAGE vs. TEMPERATURE 7 MAX14628 CAP VOLTAGE vs. CURRENT 3.0 www.DataSheet.net/ 2.5 2.0 1.5 1.0 0.5 VCC = 3.3V 0 0 3.0 123456 ICAP (mA) MAX14628 CAP VOLTAGE vs. TEMPERATURE 7 2.4 2.9 2.3 2.8 2.2 2.7 2.1 2.0 -40 -15 10 VCC = 3.3V ICAP = 0mA 35 60 85 TA (°C) 2.6 2.5 -40 -15 10 VCC = 3.3V ICAP = 0mA 35 60 85 TA (°C) �� Maxim Integrated Products 5 Datasheet pdf - http://www.DataSheet4U.co.kr/ 5 Page 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 1FF 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 2.2kI resistor to bias the microphone. The devices generate a bias voltage (VBIAS) at RES. VBIAS is connected to the internal LDO when the LDO is on or connected to VCC when the LDO is off. Microphone Low-Power Mode (MPLP) A microphone draws a large amount of current due to the 2.2kI 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 VBIAS (= VCC) through the 2.2kI resistor to RES only for a short duration (120Fs 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 VBIAS 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 (1MI). When the jack is plugged in, DETIN is pulled to ground through the detection pin of the jack. DET is then assertedwww.DataSheet.net/ (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 2.2kI resistor connects MIC to VCC in pulsing mode (MPLP) waiting for a SEND/END button press event. • If MODE is high, the external 2.2kI resistor connects MIC to LDO output continuously. • If MODE is high-Z, MIC is internally pulled down. The devices feature an internal series 100kI 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 VBIAS) for longer than 30ms. �� Maxim Integrated Products 11 Datasheet pdf - http://www.DataSheet4U.co.kr/ 11 Page

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