Philips TEA5768HL Datasheet Download

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34.807IRELESS

IMPORTANT NOTICE

Dear customer,

As from August 2

2008, the wireless operations of NXP have moved to a new company,

ST-NXP Wireless.

As a result, the following changes are applicable to the attached document.

●

Company name - Philips Semiconductors

is replaced with

ST-NXP Wireless

●

Copyright

- the copyright notice at the bottom of each page “© Koninklijke Philips

●

Web site

http://www.semiconductors.philips.com

is replaced with

http://www.stnwireless.com

●

Contact information

- the list of sales offices previously obtained by sending an email

[email protected]

, is now found at

http://www.stnwireless.com

under Contacts.

If you have any questions related to the document, please contact our nearest sales office.
Thank you for your cooperation and understanding.

ST-NXP Wireless

34.807IRELESS

www.stnwireless.com

Summary of Contents for TEA5768HL

Page 1: ... Electronics N V 200x All rights reserved shall now read ST NXP Wireless 200x All rights reserved Web site http www semiconductors philips com is replaced with http www stnwireless com Contact information the list of sales offices previously obtained by sending an email to sales addresses www semiconductors philips com is now found at http www stnwireless com under Contacts If you have any questio...

Page 2: ...DATA SHEET Product specification Supersedes data of 2003 Nov 06 2004 Sep 13 INTEGRATED CIRCUITS TEA5768HL Low power FM stereo radio for handheld applications ...

Page 3: ...no to stereo blend 7 14 Signal dependent AF response 7 15 Software programmable ports 8 I2C BUS AND BUS CONTROLLED FUNCTIONS 8 1 I2C bus specification 8 1 1 Data transfer 8 1 2 Power on reset 8 2 I2C bus protocol 8 3 Writing data 8 4 Reading data 8 5 Bus timing 9 LIMITING VALUES 10 THERMAL CHARACTERISTICS 11 DC CHARACTERISTICS 12 AC CHARACTERISTICS 13 INTERNAL PIN CONFIGURATION 14 APPLICATION INFO...

Page 4: ...tuning system I2C bus 7 bit IF counter output via the I2C bus 4 bit level information output via the I2C bus Soft mute Signal dependent mono to stereo blend Stereo Noise Cancelling SNC Signal dependent High Cut Control HCC Soft mute SNC and HCC can be switched off via the I2C bus Adjustment free stereo decoder Autonomous search tuning function Standby mode Two software programmable ports Bus enabl...

Page 5: ... enable line HIGH 30 56 80 µA bus enable line LOW 11 19 26 µA fFM ant FM input frequency 76 108 MHz Tamb ambient temperature VCCA VCC VCO VCCD 2 5 V to 5 V 10 75 C FM overall system parameters see Fig 5 VRF RF sensitivity input voltage fRF 76 MHz to 108 MHz f 22 5 kHz fmod 1 kHz S N N 26 dB de emphasis 75 µs L R BAF 300 Hz to 15 kHz 2 3 5 µV S 200 LOW side 200 kHz selectivity f 200 kHz fRF 76 MHz ...

Page 6: ...pF 22 µF 29 30 31 32 RFI1 Igain AGND FM antenna VCCA RFGND RFI2 TAGC LOOPSW 1 2 VCOTANK1 3 4 CPOUT VCOTANK2 VCC VCO 5 6 7 8 DATA VCCD DGND CLOCK AGC programmable divider output reference frequency divider output TUNING SYSTEM 4 7 nF 47 nF 47 nF 33 nF 19 18 17 LIMDEC2 LIMDEC1 TIFC Vref MPXO TMUTE VAFR VAFL 16 15 14 13 12 11 10 BUSENABLE BUSMODE SWPORT1 SWPORT2 XTAL1 XTAL2 PHASEFIL PILFIL 9 SDS 33 n...

Page 7: ...1 11 software programmable port 1 SWPORT2 12 software programmable port 2 XTAL1 13 crystal oscillator input 1 XTAL2 14 crystal oscillator input 2 PHASEFIL 15 phase detector loop filter PILFIL 16 pilot detector low pass filter VAFL 17 left audio frequency output voltage VAFR 18 right audio frequency output voltage TMUTE 19 time constant for soft mute MPXO 20 FM demodulator MPX signal output Vref 21...

Page 8: ... MHz to 217 MHz 7 4 Crystal oscillator The crystal oscillator can operate with a 32 768 kHz clock crystal or a 13 MHz crystal The temperature drift of standard 32 768 kHz clock crystals limits the operational temperature range from 10 C to 60 C The PLL synthesizer can be clocked externally with a 32 768 kHz a 6 5 MHz or a 13 MHz signal via pin XTAL2 The crystal oscillator generates the reference f...

Page 9: ...S CONTROLLED FUNCTIONS 8 1 I2C bus specification Information about the I2C bus can be found in the brochure The I2C bus and how to use it order number 9398 393 40011 The standard I2C bus specification is expanded by the following definitions IC address C0 1100000 Structure of the I2C bus logic slave transceiver Subaddresses are not used The maximum LOW level input and the minimum HIGH level input ...

Page 10: ...is changed when the MSB in byte 5 is set to logic 1 The tuning system can then be clocked via pin XTAL2 at 6 5 MHz 8 1 2 POWER ON RESET At Power on reset the mute is set all other bits are set to LOW To initialize the IC all bytes have to be transferred 8 2 I2C bus protocol Table 1 Write mode Notes 1 S START condition 2 A acknowledge 3 P STOP condition Table 2 Read mode Notes 1 S START condition 2...

Page 11: ... counter for search or preset BIT 7 MSB BIT 6 BIT 5 BIT 4 BIT 3 BIT 2 BIT 1 BIT 0 LSB PLL7 PLL6 PLL5 PLL4 PLL3 PLL2 PLL1 PLL0 BIT SYMBOL DESCRIPTION 7 to 0 PLL 7 0 setting of synthesizer programmable counter for search or preset BIT 7 MSB BIT 6 BIT 5 BIT 4 BIT 3 BIT 2 BIT 1 BIT 0 LSB SUD SSL1 SSL0 HLSI MS MR ML SWP1 BIT SYMBOL DESCRIPTION 7 SUD Search Up Down if SUD 1 then search up if SUD 0 then ...

Page 12: ...s if BL 1 then Japanese FM band if BL 0 then US Europe FM band 4 XTAL if XTAL 1 then fxtal 32 768 kHz if XTAL 0 then fxtal 13 MHz 3 SMUTE Soft MUTE if SMUTE 1 then soft mute is ON if SMUTE 0 then soft mute is OFF 2 HCC High Cut Control if HCC 1 then high cut control is ON if HCC 0 then high cut control is OFF 1 SNC Stereo Noise Cancelling if SNC 1 then stereo noise cancelling is ON if SNC 0 then s...

Page 13: ... RF Ready Flag if RF 1 then a station has been found or the band limit has been reached if RF 0 then no station has been found 6 BLF Band Limit Flag if BLF 1 then the band limit has been reached if BLF 0 then the band limit has not been reached 5 to 0 PLL 13 8 setting of synthesizer programmable counter after search or preset BIT 7 MSB BIT 6 BIT 5 BIT 4 BIT 3 BIT 2 BIT 1 BIT 0 LSB PLL7 PLL6 PLL5 P...

Page 14: ...3 0 level ADC output 3 to 1 CI 3 1 Chip Identification these bits have to be set to logic 0 0 this bit is internally set to logic 0 BIT 7 MSB BIT 6 BIT 5 BIT 4 BIT 3 BIT 2 BIT 1 BIT 0 LSB 0 0 0 0 0 0 0 0 BIT SYMBOL DESCRIPTION 7 to 0 reserved for future extensions these bits are internally set to logic 0 SYMBOL PARAMETER CONDITIONS MIN MAX UNIT Digital inputs VIH HIGH level input voltage 0 45VCCD ...

Page 15: ...ONDITIONS MIN MAX UNIT VVCOTANK1 VCO tuned circuit output voltage 1 0 3 8 V VVCOTANK2 VCO tuned circuit output voltage 2 0 3 8 V VCCD digital supply voltage 0 3 5 V VCCA analog supply voltage 0 3 8 V Tstg storage temperature 55 150 C Tamb ambient temperature 10 75 C Ves electrostatic handling voltage for all pins except pin DATA note 1 200 200 V note 2 2000 2000 V for pin DATA note 1 150 200 V not...

Page 16: ... Supply currents ICCA analog supply current operating VCCA 3 V 6 0 8 4 10 5 mA VCCA 5 V 6 2 8 6 10 7 mA standby mode VCCA 3 V 3 6 µA VCCA 5 V 3 2 6 2 µA ICC VCO voltage controlled oscillator supply current operating VVCOTANK1 VVCOTANK2 3 V 560 750 940 µA VVCOTANK1 VVCOTANK2 5 V 570 760 950 µA standby mode VVCOTANK1 VVCOTANK2 3 V 1 2 µA VVCOTANK1 VVCOTANK2 5 V 1 2 2 2 µA ICCD digital supply current...

Page 17: ... 82 V VXTAL2 data byte 4 bit 4 1 1 64 1 72 1 8 V data byte 4 bit 4 0 1 68 1 75 1 82 V VPHASEFIL 0 4 1 2 VCCA 0 4 V VPILFIL 0 65 0 9 1 3 V VVAFL fRF 98 MHz VRF 1 mV 720 850 940 mV VVAFR fRF 98 MHz VRF 1 mV 720 850 940 mV VTMUTE VRF 0 V 1 5 1 65 1 8 V VMPXO fRF 98 MHz VRF 1 mV 680 815 950 mV VVref 1 45 1 55 1 65 V VTIFC 1 34 1 44 1 54 V VLIMDEC1 1 86 1 98 2 1 V VLIMDEC2 1 86 1 98 2 1 V VIgain 480 53...

Page 18: ... 6 7 3 pF data byte 4 bit 4 1 5 6 7 pF CRYSTAL 32 768 kHz fr series resonance frequency data byte 4 bit 4 1 32 768 kHz f fr frequency deviation 20 10 6 20 10 6 C0 shunt capacitance 3 5 pF RS series resistance 80 kΩ fr fr 25 C temperature drift 10 C Tamb 60 C 50 10 6 50 10 6 CRYSTAL 13 MHz fr series resonance frequency data byte 4 bit 4 0 13 MHz f fr frequency deviation 30 10 6 30 10 6 C0 shunt cap...

Page 19: ...2 768 kHz 4 096 kHz fxtal 13 MHz 4 0625 kHz IFcount IF counter result for search tuning stop fxtal 32 768 kHz 31 3E HEX fxtal 13 MHz 32 3D HEX Pins DATA CLOCK BUSMODE and BUSENABLE Ri input resistance 10 MΩ Software programmable ports PIN SWPORT1 Isink max maximum sink current data byte 3 bit 0 0 data byte 4 bit 0 0 VSWPORT1 0 5 V 500 µA Ileak max maximum leakage current data byte 3 bit 0 1 VSWPOR...

Page 20: ...Hz BIF IF filter bandwidth 85 94 102 kHz S 200 HIGH side 200 kHz selectivity f 200 kHz ftune 76 MHz to 108 MHz note 3 39 43 dB S 200 LOW side 200 kHz selectivity f 200 kHz ftune 76 MHz to 108 MHz note 3 32 36 dB S 100 HIGH side 100 kHz selectivity f 100 kHz ftune 76 MHz to 108 MHz note 3 8 12 dB S 100 LOW side 100 kHz selectivity f 100 kHz ftune 76 MHz to 108 MHz note 3 8 12 dB IR image rejection ...

Page 21: ...30 µA Soft mute VRF RF input voltage for soft mute start αmute 3 dB data byte 4 bit 3 1 3 5 10 µV αmute mute attenuation VRF 1 µV L R f 22 5 kHz fmod 1 kHz de emphasis 75 µs BAF 300 Hz to 15 kHz data byte 4 bit 3 1 10 20 30 dB MPX decoder VAFL VAFR left and right audio frequency output voltage VRF 1 mV L R f 22 5 kHz fmod 1 kHz de emphasis 75 µs 60 75 90 mV RAFL RAFR left and right audio frequency...

Page 22: ...t VRF 1 mV data byte 5 bit 6 0 38 50 62 µs data byte 5 bit 6 1 57 75 93 µs VRF 1 µV data byte 5 bit 6 0 114 150 186 µs data byte 5 bit 6 1 171 225 279 µs MONO TO STEREO BLEND CONTROL αcs stereo stereo channel separation VRF 45 µV R L 0 or R 0 and L 1 including 9 pilot f 75 kHz fmod 1 kHz data byte 3 bit 3 0 data byte 4 bit 1 1 4 10 16 dB MONO TO STEREO SWITCHED αcs stereo stereo channel separation...

Page 23: ...y clocked with 6 5 MHz Example for receiving a channel at 100 MHz with HIGH side injection The PLL word becomes 2FCAH 2 VRF in Fig 5 is replaced by VRF1 VRF2 The radio is tuned to 98 MHz HIGH side injection 3 LOW side and HIGH side selectivity can be switched by changing the mixer from HIGH side to LOW side LO injection BUS DRIVEN MUTE FUNCTIONS Tuning mute αmute VAFL and VAFR muting depth data by...

Page 24: ... mV 80 30 40 50 60 70 10 20 MHC247 10 3 10 2 10 1 1 1 2 3 4 5 6 10 102 4 0 3 5 3 0 2 5 2 0 1 5 1 0 0 5 0 THD 103 Fig 3 FM characteristics 1 1 Mono signal soft mute on 2 Left channel with modulation left SNC on 3 Right channel with modulation left SNC on 4 Noise in mono mode soft mute on 5 Noise in stereo mode SNC on 6 Total harmonic distortion f 75 kHz L R fmod 1 kHz ...

Page 25: ...d applications TEA5768HL handbook full pagewidth 10 0 VAFL VAFR dB VRF mV 80 30 40 50 60 70 10 20 MHC309 10 3 10 2 10 1 1 1 2 3 10 102 2 2 2 1 2 0 1 9 1 8 1 7 1 6 1 5 1 4 103 VTMUTE V Fig 4 FM characteristics 2 1 Mono signal no soft mute 2 Noise in mono mode no soft mute 3 Level voltage VCCA 2 7 V ...

Page 26: ...on Low power FM stereo radio for handheld applications TEA5768HL 13 INTERNAL PIN CONFIGURATION PIN SYMBOL EQUIVALENT CIRCUIT 1 CPOUT 2 VCOTANK1 3 VCOTANK2 4 VCC VCO 5 DGND 6 VCCD 7 DATA 8 CLOCK MHC251 1 270 Ω MHC252 3 120 Ω 2 120 Ω MHC253 7 5 270 Ω MHC254 5 8 ...

Page 27: ...ow power FM stereo radio for handheld applications TEA5768HL 9 BUSMODE 10 BUSENABLE 11 SWPORT1 12 SWPORT2 13 XTAL1 14 XTAL2 15 PHASEFIL PIN SYMBOL EQUIVALENT CIRCUIT 270 Ω MHC255 5 9 150 Ω MHC256 5 10 MHC257 11 5 150 Ω MHC258 12 5 150 Ω 13 14 MHC259 15 26 MHC260 ...

Page 28: ...uct specification Low power FM stereo radio for handheld applications TEA5768HL 16 PILFIL 17 VAFL 18 VAFR 19 TMUTE 20 MPXO PIN SYMBOL EQUIVALENT CIRCUIT 270 Ω 16 26 MHC261 10 Ω MHC262 26 17 10 Ω MHC263 26 18 19 1 kΩ MHC264 26 150 Ω MHC265 26 20 ...

Page 29: ...uct specification Low power FM stereo radio for handheld applications TEA5768HL 21 Vref 22 TIFC 23 LIMDEC1 24 LIMDEC2 25 Igain 26 AGND 27 VCCA PIN SYMBOL EQUIVALENT CIRCUIT MHC266 21 26 MHC267 22 40 kΩ MHC268 270 Ω 23 MHC269 24 270 Ω MHC270 25 ...

Page 30: ...MHC273 32 4 14 APPLICATION INFORMATION Table 28 Component list for Figs 1 and 5 COMPONENT PARAMETER VALUE TOLERANCE TYPE MANUFACTURER R1 resistor with low temperature coefficient 18 kΩ 1 RC12G Philips D1 and D2 varicap for VCO tuning BB202 Philips L1 RF band filter coil 120 nH 2 Qmin 40 L2 and L3 VCO coil 33 nH 2 Qmin 40 XTAL13 13 MHz crystal NX4025GA Cpull pulling capacitor for NX4025GA 10 pF XTA...

Page 31: ...21 20 27 pF L1 47 pF 22 µF 29 30 31 32 RFI1 Igain AGND VCCA RFGND RFI2 TAGC LOOPSW 1 2 VCOTANK1 3 4 CPOUT VCOTANK2 VCC VCO 5 6 7 8 DATA VCCD DGND CLOCK AGC programmable divider output reference frequency divider output TUNING SYSTEM 4 7 nF 47 nF 47 nF 33 nF 19 18 17 LIMDEC2 LIMDEC1 TIFC Vref MPXO TMUTE VAFR VAFL 16 15 14 13 12 11 10 BUSENABLE BUSMODE SWPORT1 SWPORT2 XTAL1 XTAL2 PHASEFIL PILFIL 9 S...

Page 32: ...0 3 0 18 0 12 7 1 6 9 0 8 9 15 8 85 0 9 0 5 7 0 o o 0 25 0 1 1 0 2 DIMENSIONS mm are the original dimensions Note 1 Plastic or metal protrusions of 0 25 mm maximum per side are not included 0 75 0 45 SOT358 1 136E03 MS 026 00 01 19 03 02 25 D 1 1 1 7 1 6 9 HD 9 15 8 85 E Z 0 9 0 5 D bp e θ E A1 A Lp detail X L A 3 B 8 c D H bp E H A2 v M B D ZD A ZE e v M A X 1 32 25 24 17 16 9 y pin 1 index w M w...

Page 33: ...e respected at all times 16 3 Wave soldering Conventional single wave soldering is not recommended for surface mount devices SMDs or printed circuit boards with a high component density as solder bridging and non wetting can present major problems To overcome these problems the double wave soldering method was specifically developed If wave soldering is used the following conditions must be observ...

Page 34: ...en the printed circuit board and the heatsink On versions with the heatsink on the top side the solder might be deposited on the heatsink surface 5 If wave soldering is considered then the package must be placed at a 45 angle to the solder wave direction The package footprint must incorporate solder thieves downstream and at the side corners 6 Wave soldering is suitable for LQFP QFP and TQFP packa...

Page 35: ...alues definition Limiting values given are in accordance with the Absolute Maximum Rating System IEC 60134 Stress above one or more of the limiting values may cause permanent damage to the device These are stress ratings only and operation of the device at these or at any other conditions above those given in the Characteristics sections of the specification is not implied Exposure to limiting val...

Page 36: ...ons TEA5768HL 20 PURCHASE OF PHILIPS I2C COMPONENTS Purchase of Philips I2C components conveys a license under the Philips I2C patent to use the components in the I2C system provided the system conforms to the I2C specification defined by Philips This specification can be ordered using the code 9398 393 40011 ...

Page 37: ...ability will be accepted by the publisher for any consequence of its use Publication thereof does not convey nor imply any license under patent or other industrial or intellectual property rights Philips Semiconductors a worldwide company Contact information For additional information please visit http www semiconductors philips com Fax 31 40 27 24825 For sales offices addresses send e mail to sal...

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