Ordering number : ENA0503A LC72725KV CMOS IC RDS(RBDS) Demodulation IC http://onsemi.com Overview The LC72725KV is IC that implement the signal processing required by the European Broadcasting Union RDS (Radio Data System) standard and by the US NRSC (National Radio System Committee) RBDS (Radio Broadcast Data System) standard. This IC include band-pass filter, demodulator, and data buffer on chip. RDS data can be read out from this on-chip memory by external clock input in slave operation mode. Functions • Bandpass filter: Switched capacitor filter (SCF) • RDS Demodulation: 57KHz carrier and RDS data clock regeneration, biphase decode, differential decode. • Buffer: 128 bit (about 100ms) can be restored in the on-chip data buffer RAM. • Data output: Master or slave output mode can be selected. • RDS-ID: Detect RDS signal which can be reset by RST signal input. • Standby control: Crystal oscillator can be stopped. • Fully adjustment free • Low Voltage Specifications Absolute Maximum Ratings at Ta = 25°C, VSSd = VSSa = 0V Parameter Maximum supply voltage Maximum input voltage Symbol VDD max VIN1 Pin Name VDDd, VDDa * TEST, MODE, XIN, RDCL, RST max VIN2 max Maximum output voltage Maximum output current MPXIN, CIN Conditions VDDa≤VDDd+0.3V Ratings Unit -0.3 to +6.5 V -0.3 to VDDd+0.3 V -0.3 to VDDa+0.3 V VO1 max RDS-ID(READY) -0.3 to +6.5 V VO2 max XOUT, RDDA, RDCL -0.3 to VDDd+0.3 V VO3 max FLOUT -0.3 to VDDa+0.3 V IO1 max XOUT, FLOUT, RDDA, RDCL +2.0 mA IO2 max RDS-ID(READY) +8.0 mA * VDDa≤VDDd+0.3V Continued on next page. Semiconductor Components Industries, LLC, 2013 June, 2013 60612HK 20060913-S00003/83006HKIM 20060822-S00002,20060823-S00002 No.A0503-1/9 LC72725KV Continued from preceding page. Parameter Symbol Allowable power dissipation Pd max Operating temperature Storage temperature Pin Name Conditions Ratings Ta≤85°C Unit 100 Topr1 VDD = 2.7V to 5.5V Topr2 VDD = 3.0V to 5.5V Tstg mW -20 to +70 °C -40 to +85 °C -40 to +125 °C Stresses exceeding Maximum Ratings may damage the device. Maximum Ratings are stress ratings only. Functional operation above the Recommended Operating Conditions is not implied. Extended exposure to stresses above the Recommended Operating Conditions may affect device reliability. Allowable Operating Ranges at Ta = -20 to +70°C, VSSd = VSSa = 0V, VDDd = VDDa = 2.7V to 5.5V Ta = -40 to +85°C, VSSd = VSSa = 0V, VDDd = VDDa = 3.0V to 5.5V Ratings Parameter Symbol Pin Name Conditions unit min Supply voltage Input high-level voltage Input low-level voltage Input amplitude VDDd, VDDa Ta = -20 to +70°C 2.7 5.5 VDD2 VDDd, VDDa Ta = -40 to +85°C 3.0 5.5 VIH1 TEST, MODE, RST 0.7VDDd 6.5 V VIH2 RDCL 0.7VDDd VDDd V 0 0.3VDDd V VDDd V VIL VO1 TEST, MODE, RST, V RDDA, RDCL VO2 RDS-ID(READY) VIN MPXIN VXIN Guaranteed crystal f = 57±2kHz XIN Xtal XIN, XOUT CI≤120Ω TXtal XIN, XOUT Fo = 4.332MHz 6.5 V 1.6 50 mVrms 400 1500 mVrms 4.332 oscillator frequencies Crystal oscillator operating max VDD1 RDCL Output voltage typ MHz ±100 range ppm RDCL setup time tCS RDCL, RDDA 0 μs RDCL high-level time tCH RDCL 0.75 μs RDCL low-level time tCL RDCL 0.75 Data output time tDC RDCL, RDDA 0.75 μs READY output time tRC RDCL, READY 0.75 μs READY low-level time tRL READY 107 ms μs No.A0503-2/9 LC72725KV Electrical Characteristics for the Allowable Operating Ranges Ratings Parameter Symbol Pin Name Conditions unit min Input resistance Rmpxin Rcin Internal feedback typ max MPXIN-VSSa f = 57kHz 100 kΩ CIN-VSSa f = 57kHz 100 kΩ 1.0 MΩ Rf XIN Center frequency fc FLOUT 56.5 57.0 57.5 kHz -3dB band width BW-3dB FLOUT 2.5 3.0 3.5 kHz 31 34 dB resistance Gain Gain MPXIN-FLOUT f = 57kHz 28 Stop band attenuation Att1 FLOUT Δf = ±7kHz 30 dB dB Att2 FLOUT F<45kHz, f>70kHz 40 Att3 FLOUT F<20kHz 50 Reference voltage output Vref Vref VDDa = 3V Hysteresis VHIS TEST, MODE, RST, RDCL Output low-level voltage VOL1 RDDA, RDCL I = 2mA VOL2 RDS-ID(READY) I = 8mA Output high-level voltage VOH RDDA, RDCL I = 2mA Input high-level current IIH1 TEST, MODE, RST, VI = 6.5V dB 1.5 V 0.1VDDd V 0.4 0.4 VDDd-0.4 IIH2 XIN VI = VDDd IIL1 TEST, MODE, RST, VI = 0V 2.0 RDCL Output off leakage IIL2 XIN VI = 0V IOFF RDS-ID(READY) VO = 6.5V IDD VDDd+VDDa VDDd+VDDa (VDDd = VDDa = 3V) 2.0 current Current drain V V RDCL Input low-level current V 5 5.0 μA 11 μA 5.0 μA 11 μA 5.0 μA mA Package Dimensions unit : mm (typ) 3178B 5.2 0.5 6.4 9 4.4 16 1 8 0.65 0.15 (1.3) 1.5max 0.22 0.1 (0.33) SANYO : SSOP16(225mil) No.A0503-3/9 LC72725KV 16 15 14 13 12 11 10 TEST MODE VDDd VSSd XIN XOUT RST RDCL Pin Assignment 9 1 2 3 4 5 6 7 8 RDS-ID/READY RDDA VREF MPXIN VDDa VSSa FLOUT CIN LC72725KV Top view Block Diagram VREF +3V CIN FLOUT +3V VDDa VSSa MPXIN PLL (57kHz) REFERENCE VOLTAGE CLOCK RECOVERY (1187.5Hz) VSSd VREF ANTIALIASING FILTER 57kHz BPF (SCF) VDDd DATA DECODER SMOOTHING FILTER RDDA RDCL RAM (128bit) RST CLK(4.332MHz) TEST TEST RDS-ID DETECT OSC XIN MODE RDS-ID/ READY XOUT No.A0503-4/9 LC72725KV Pin Descriptions Pin No. Pin Name I/O 3 VREF Output Function Reference voltage output (Vdda/2) Pin Circuit VDDa VSSa 4 MPXIN Input Baseband (multiplexed) signal input VDDd VSSd 7 FLOUT Output 8 CIN Input Subcarrier output (filter output) Subcarrier input (comparator input) VDDa VSSa 5 VDDa - Analog system power supply (+3V) 6 VSSa - Analog system ground 14 XOUT Output 13 XIN Input Crystal oscillator output (4.332MHz) VREF VDDd Crystal oscillator input (external reference signal input) XIN VSSd XOUT 9 TEST Test input 10 MODE Read out mode (0:master, 1:slave) 15 RST 2 RDDA S RDS-ID/RAM reset (active high) Output VSSd RDS data output VDDd VSSd 16 RDCL I/O RDS clock output (master mode) / VDDd RDS read out clock input (slave mode) S 1 RDS-ID/ Output READY VSSd RDS reliability data output (High:data with high RDS reliability Low: data with low RDS reliability) READY output (active high) 12 VDDd - Digital system power supply (+3V) 11 VSSd - Digital system ground VSSd No.A0503-5/9 LC72725KV Input/Output Data Format TEST MODE RDCL Pin RDS-ID/READY Pin 0 0 Master read out mode Circuit Operation Mode Clock output RDS-ID output 0 1 Slave read out mode Clock input READY output 1 0 Standby mode (crystal oscillator stopped) - - 1 1 IC test mode which is not available to user applications. - - RST Pin RST = 0 Normal operation RST = 1 RDS-ID • demodulation circuit clear + READY • memory clear (when slave mode) RDS-ID/READY Pin Master mode RDS-ID output (Active-high) Slave mode READY output (Active-high) Note: RDS-ID(READY) pin is an n-channel open-drain output, and requires an external pull-up resistor to output data. RDCL/RDDA Output Timing in Master Mode 421μs 421μs Tp1 RDCL output RDDA output 17μs Tp2 17μs RDS-ID Output Timing RDS-ID High/Low High/Low High/Low High/Low High/Low High/Low High/Low RDCL RDDA Note: RDS-ID is High: data with high RDS reliability, Low: data with low RDS reliability No.A0503-6/9 LC72725KV RST Operation in Master Mode Tp3≥250ns RST ≈ ≈≈ RDSdetection circuit output (IC internal) RDCL RDDA Note: RDCL and RDDA outputs keep high level after input of RST until RDS detection circuit output is detected. RDCL Operation in Slave Mode tRH tCS tCH tDC ≈ RDCL tCS ≈≈ ≈ READY tRC tCL RDDA Ratings Parameter Symbol Pin Name Conditions unit min typ max RDCL setup time tCS RDCL,RDDA 0 μs RDCL high-level time tCH RDCL 0.75 μs RDCL low-level time tCL RDCL 0.75 Data output time tDC RDCL,RDDA 0.75 μs μs READY output time tRC RDCL,READY 0.75 μs READY high-level time tRH READY 107 ms No.A0503-7/9 LC72725KV Notes: 1. RDCL input must be started after READY signal goes high. When READY signal is low, RDCL must be low level. 2. READY status must be checked after tRC time from RDCL is set low. If the READY status is high, then next read cycle can be continued. If the READY status is low, next RDCL clock input must be stopped. 3. If the above condition is satisfied, RDS data (RDDA) can be read out at both rising and falling edge of RDCL. 4. READY signal goes low after the last data is read out from on-chip memory. If one RDS data is stored in the memory, READY signal goes high again. 5. When the reception channel is changed, a memory and READY reset must be applied using RST input. If a reset is not applied, reception data from the previous channel may remain in memory. If RST input is applied, reception data is not stored in memory until the first RDS-ID is detected, and READY output goes high after the first RDS-ID is detected. After the first RDS-ID is detected, reception data is stored even if RDS-ID is not detected. 6. The readout mode may be switched between master and slave modes during readout. Applications must observe the following points to assure data continuity during this operation. 1) Data acquisition timing in master made Data must be read on the falling edge of RDCL 2) Timing of the switch from master mode to slave mode After the RDCL output goes low and the RDDA data has been acquired, the application must set MODE high immediately. Then, the microcontroller starts output by setting the RDCL signal low. The microcontroller RDCL output must start within 840μs (tms) after RDCL went low. In this case, if the last data read in master mode was data item n, then data starting with item n+1 will be written to memory. 3) Timing of the switch from slave mode to master mode After all data has been read from memory and READY has gone high, the application must then wait until READY goes low once again the next time (timing A in the figure), immediately read out one bit of data and input the RDCL clock. Then, at the point READY goes high, the microcontroller must terminate RDCL output and then set MODE low. The application must switch MODE to low within 840μs (tms) after READY goes low (timing A in the figure). RDCL (microcontroller status) RDCL (IC status) INPUT OUTPUT OUTPUT INPUT ≈ ≈≈ ≈ tms INPUT OUTPUT undefined ≈≈ RDCL MODE ts m READY RDDA n-2 n-1 n n+1 ≈≈ ≈ Timing A m m+1 m+2 No.A0503-8/9 LC72725KV Sample Application Connection Circuit (for master mode operation) VDDd 10kΩ RDSID/READY 1 RDSID/READY 2 RDDA 10μF VSSa + MPXIN 3 RDDA RST VREF XOUT 16 5 15 RST 14 MPXIN XIN VDDa VDDd VSSa VSSd 13 12 0.1μF 6 VSSa 7 560pF RDCL 4.332MHz 4 330pF VDDa RDCL 8 FLOUT CIN MODE TEST VDDd 0.1μF 22pF 22pF VSSd VSSd 11 VSSd 10 9 VSSd Note: If the RST pin is unused, it must be connected to ground. ON Semiconductor and the ON logo are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC owns the rights to a number of patents, trademarks, copyrights, trade secrets, and other intellectual property. A listing of SCILLC’s product/patent coverage may be accessed at www.onsemi.com/site/pdf/Patent-Marking.pdf. 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