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CXA3555N All Band Tuner IC with On-chip PLL Description The CXA3555N is a monolithic TV tuner IC which integrates local oscillator and mixer circuits for VHF band, local oscillator and mixer circuits for UHF band, an IF amplifier and a tuning PLL onto a single chip, enabling further miniaturization of the tuner. Features * Low power consumption (5V, 63mA typ.) * Low noise figure, low distortion characteristics * High gain/low gain selectable * Supports IF double-tuned/adjacent channel trap * Balanced oscillator circuits (3 sets) with excellent oscillation stability * On-chip PLL supports I2C bus * On-chip high voltage drive transistor for charge pump * Frequency step selectable from 31.25, 50 or 62.5kHz (when using a 4MHz crystal) * Low-phase noise synthesizer * On-chip 4-output band switch (output voltage: 5V, current capacity: 5mA) * 30-pin SSOP small package Applications * TV tuners * VCR tuners * CATV tuners Structure Bipolar silicon monolithic IC 30 pin SSOP (Plastic) Absolute Maximum Ratings * Supply voltage VCC * Operating temperature Topr * Storage temperature Tstg * Allowable power dissipation PD Operating Conditions Supply voltage -0.3 to +5.5 -25 to +75 -55 to +150 580 V C C mW VCC 4.75 to 5.30 V Note: This IC has pins whose electrostatic discharge strength is weak as the operating frequency is high and the high-frequency process is used for this IC. Take care of handling the IC. Sony reserves the right to change products and specifications without prior notice. This information does not convey any license by any implication or otherwise under any patents or other right. Application circuits shown, if any, are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits. -1- E01326-PS CXA3555N Block Diagram and Pin Configuration IF AMP SCL SDA 1 2 30 IFOUT 29 ADSW 28 BS3 BS1 3 Divider 1/128, 160, 256 REF OSC REF 27 OSC BS2 4 I2C BUS Interface Shift Register IFIN1 5 Phase Detector Band SW Driver Charge Pump 26 CPO IFIN2 6 25 VT Vcc 7 Programable Divider 14/15 bit Prescaler 1/2 24 GND2 MIXOUT1 8 23 UOSCB2 MIXOUT2 9 22 UOSCE2 21 UOSCE1 UHFOSC 20 UOSCB1 GND1 10 19 VHOSC2 VHFIN 11 BYP 12 BS4 13 UHFIN1 14 UHFIN2 15 UHF/VHF MIX 17 VHOSC1 VHOSC 18 VLOSC2 16 VLOSC1 VLOSC -2- CXA3555N Pin Description Pin No. 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 Symbol SCL SDA BS1 BS2 IFIN1 IFIN2 Vcc MIXOUT1 MIXOUT2 GND1 VHFIN BYP BS4 UHFIN1 UHFIN2 VLOSC1 VHOSC1 VLOSC2 VHOSC2 UOSCB1 UOSCE1 UOSCE2 UOSCB2 GND2 VT CPO REFOSC BS3 ADSW IFOUT SCL input SDA I/O Band switch output 1 Band switch output 2 IF amplifier input IF amplifier input Power supply MIX output (open collector) MIX output (open collector) Analog circuit GND VHF input VHF input GND and gain switching (low: GND, high: open) Band switch output 4 UHF input UHF input VHF Low-band oscillator VHF High-band oscillator VHF Low-band oscillator VHF High-band oscillator UHF oscillator (base pin) UHF oscillator (emitter pin) UHF oscillator (emitter pin) UHF oscillator (base pin) PLL circuit GND Tuning voltage output (open collector) Charge pump output (loop filter connection) Crystal connection for PLL reference oscillator Band switch output 3 Address selection (I2C bus) IF amplifier output Description -3- CXA3555N Pin Description Pin No. Symbol Pin voltage [V] 7 Equivalent circuit Description 1 SCL -- 1 40k Clock input 7 2 SDA -- 40k 2 5p Data input 7 3 BS1 3 4 70k 4 BS2 High: 4.9 Low: 0.0 7 Band switch outputs. This pin corresponding to the selected band goes High. 13 BS4 13 28 28 BS3 -4- CXA3555N Pin No. Symbol Pin voltage [V] 7 Equivalent circuit Description 5 5 IFIN1 6 1.6k 2.0 IF inputs. These pins must be connected to the mixer outputs via coupling capacitance. 6 IFIN2 7 VCC -- 8 9 Power supply. 8 MIXOUT1 -- 9 MIXOUT2 Mixer outputs. These pins output the signal in open collector format, and they must be connected to the power supply via a load. 10 GND1 -- 2.4 during VHF reception 0.0 during UHF reception 7 57k 15p 11 3k 3k 150k Analog circuit GND. 11 VHFIN VHF input. The input format is unbalanced input. VHF input GND and gain switching. GND: low gain Open: high gain (However, when control byte GC is "0") 12 BYP VCC (when open) 12 7 14 UHFIN1 0.0 during VHF reception 2.3 during UHF reception 14 15 3k 3k 15 UHFIN2 UHF inputs. Input a balanced signal to Pins 14 and 15, or ground either of Pin 14 or 15 with a capacitor and input the signal to the other pin. -5- CXA3555N Pin No. Symbol Pin voltage [V] Equivalent circuit 16 7 18 33 Description 16 VLOSC1 33 0.0 50k 50k External resonance circuit connection for VL oscillator. 18 VLOSC2 17 7 19 20 17 VHOSC1 20 0.0 50k 50k External resonance circuit connection for VH oscillator. 19 VHOSC2 20 UOSCB1 21 UOSCE1 22 UOSCE2 23 24 UOSCB2 GND2 2.4 during VHF reception 2.2 during UHF reception 2.0 during VHF reception 1.5 during UHF reception 2.0 during VHF reception 1.5 during UHF reception 2.4 during VHF reception 2.2 during UHF reception 7 23 22 21 20 3k 3k External resonance circuit connection for UHF oscillator. -- 7 PLL circuit GND. Varicap drive voltage output. This pin outputs the signal in open collector format, and it must be connected to the tuning power supply via a load. 70 25 VT -- 26 25 26 CPO 2.0 Charge pump output. Connects the loop filter. -6- CXA3555N Pin No. Symbol Pin voltage [V] 7 Equivalent circuit Description 30k 27 REFOSC 4.4 25p 27 38p Crystal connection for reference oscillator. 7 150k 29 ADSW 1.25 (when open) 29 50k 5p Address selection. Controls address bits 1 and 2. 7 30 IFOUT 2.8 30 IF output. -7- CXA3555N Electrical Characteristics (See the Electrical Characteristics Measurement Circuit.) (Vcc = 5V, IFVCC = 5V, Ta = 25C) Circuit Current Item Symbol Iccv Circuit current Iccu Measurement conditions VCC current Band switch output open during VHF operation VCC current Band switch output open during UHF operation Min. 35 35 Typ. 56 56 Max. 78 78 Unit mA mA OSC/MIX/IF Amplifier Block Item Symbol CG1 CG2 CG3 Conversion gain1 CG4 CG5 CG6 CG7 CG8 NF1 NF2 NF3 Noise figure1, 2 NF4 NF5 NF6 NF7 NF8 CM1 CM2 CM3 CM4 CM5 CM6 CM7 CM8 Measurement conditions VHF operation fRF = 55MHz High gain mode VHF operation fRF = 360MHz High gain mode UHF operation fRF = 360MHz High gain mode UHF operation fRF = 800MHz High gain mode VHF operation fRF = 55MHz Low gain mode VHF operation fRF = 360MHz Low gain mode UHF operation fRF = 360MHz Low gain mode UHF operation fRF = 800MHz Low gain mode VHF operation fRF = 55MHz High gain mode VHF operation fRF = 360MHz High gain mode UHF operation fRF = 360MHz High gain mode UHF operation fRF = 800MHz High gain mode VHF operation fRF = 55MHz Low gain mode VHF operation fRF = 360MHz Low gain mode UHF operation fRF = 360MHz Low gain mode UHF operation fRF = 800MHz Low gain mode VHF operation fD = 55MHz fUD = 12MHz (30% AM) High gain mode VHF operation fD = 360MHz fUD = 12MHz (30% AM) High gain mode UHF operation fD = 360MHz fUD = 12MHz (30% AM) High gain mode UHF operation fD = 800MHz fUD = 12MHz (30% AM) High gain mode VHF operation fD = 55MHz fUD = 12MHz (30% AM) Low gain mode VHF operation fD = 360MHz fUD = 12MHz (30% AM) Low gain mode UHF operation fD = 360MHz fUD = 12 MHz (30% AM) Low gain mode UHF operation fD = 800MHz fUD = 12 MHz (30% AM) Low gain mode 99 99 97 94 100 100 98 94 8 Min. 19.0 19.5 23.0 23.0 17.0 17.5 21.0 21.0 Typ. 22.0 22.5 26.0 26.0 20.0 20.5 24.0 24.0 12 12 10 11 13 13 11 12 103 103 101 98 104 104 102 98 11 Max. 25.0 25.5 29.0 29.0 23.0 23.5 27.0 27.0 15 15 13 14 16 16 14 15 Unit dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB dB dBm 1% cross modulation 11, 3 Maximum output power Pomax 50 load, saturation output -8- CXA3555N Item Symbol fsw1 Measurement conditions VHF operation fOSC = 100MHz f from 3s to 3min after switch ON VHF operation fOSC = 405MHz f from 3s to 3min after switch ON UHF operation fOSC = 405MHz f from 3s to 3min after switch ON UHF operation fOSC = 845MHz f from 3s to 3min after switch ON VHF operation fOSC = 100MHz f when VCC 5V changes 5% VHF operation fOSC = 405MHz f when VCC 5V changes 5% UHF operation fOSC = 405MHz f when VCC 5V changes 5% UHF operation fOSC = 845MHz f when VCC 5V changes 5% VHF operation 10kHz offset CP = 1 Phase comparison frequency = 31.25kHz UHF operation 10kHz offset CP = 1 Phase comparison frequency = 31.25kHz Min. Typ. Max. 300 600 350 400 100 450 100 100 Unit kHz kHz kHz kHz kHz kHz kHz kHz dBc/Hz dBc/Hz Switch ON drift (PLL not operating) 4 fsw2 fsw3 fsw4 fst1 Supply voltage drift fst2 (PLL not operating) 4 fst3 fst4 C/N1 Oscillator phase noise C/N2 86 80 1 Value measured with untuned input. 2 NF meter direct-reading value (DSB measurement). 3 Value with a desired reception signal input level of -30dBm, an interference signal of 100kHz/30% AM, and an interference signal level where S/I = 46dB measured with a spectrum analyzer. 4 Value when the PLL is not operating. -9- CXA3555N PLL Block Item Symbol LUT1 Lock-up time LUT2 Reference leak CL and DA inputs "H" level input voltage "L" level input voltage "H" level input current "L" level input current AD input "H" level input voltage "L" level input voltage "H" level input current "L" level input current SDA output "H" output leak current "L" output voltage CPO (charge pump) Output current 1 Leak current 1 Output current 2 Leak current 2 VT (VC voltage output) Maximum output voltage Minimum output voltage REFOSC Oscillation frequency range Input capacitance Negative resistance Band SW Output current Saturation voltage Leak current IBS VSAT LeakBS When ON When ON Source current = 5mA When OFF IFVCC = 5.5V 100 0.5 -5 300 3 mA mV A FXTOSC CXTOSC RNEG Crystal source impedance fREF = 4MHz 3 22 -1 24 -3 12 26 MHz pF k VTH VTL Sink current = 1mA 0.15 34 0.8 V V ICPO1 ICPO2 When CP = 0 is selected When CP = 1 is selected 30 120 50 200 80 30 320 100 A nA A nA LeakCP1 When CP = 0 is selected LeakCP2 When CP = 1 is selected ISDALK VSDAL VIN = 5.5V Sink = -3mA GND 5 0.4 A V VIH VIL IIH IIL VIH = Vcc VIL = GND 3 GND 100 -35 Vcc 1 200 -100 V V A A VIH VIL IIH IIL VIH = Vcc VIL = GND 3 GND 0 -0.2 Vcc 1.5 -0.1 -4 V V A A REFL Measurement conditions VHF operation CP = 1 fOSC 100MHz fOSC 405MHz UHF operation CP = 1 fOSC 405MHz fOSC 845MHz Phase comparison frequency = 31.25kHz CP = 1 54 Min. Typ. Max. 50 50 Unit ms ms dBc - 10 - CXA3555N Item Bus timing (I2C bus) SCL clock frequency Start waiting time Start hold time Low hold time High hold time Start setup time Data hold time Data setup time Rise time Fall time Stop setup time Symbol fSCL Measurement conditions Min. 0 1300 600 1300 600 600 0 600 Typ. Max. 400 Unit kHz ns ns ns ns ns tW;STA tH;STA tLOW tHIGH tS;STA tH;DAT tS;DAT tR tF tS;STO 900 300 300 ns ns ns ns ns 600 - 11 - CXA3555N Electrical Characteristics Measurement Circuit IF OUT +30V 22k 4700p 240 10k 0.056 220n 10k 10k 10k 2.5 2.5T 1T363 10k 1n XTAL 1.2k 4MHz 100p 7p 30 IFOUT 29 ADSW 28 BS3 27 REFOSC 26 CPO 25 VT 24 GND2 23 UOSCB2 22 UOSCE2 2p 21 UOSCE1 7p 20 UOSCB1 56p 10k 0.5p 1T363 0.5p 10k 3.4 2.5T 10k 3.4 8.5T 56p 1T363 56p 12p 0.5p 12p 27 27 1T362 0.5p 10p 0 10p 0 7p 56p 19 VHOSC2 18 VLOSC2 17 VHOSC1 16 VLOSC1 15 UHF IN UHFIN2 1n MIXOUT1 MIXOUT2 1 2 3 4 5 6 7 1000p 8 9 10 11 12 13 14 51 51 1.2k 1.2k 1n 150p 4.5T 4.5T 1n 1.2k 1n 150p 56p 56p 1000p 3.3 ADSW SCL SDA +5V 100 1000p VHF IN - 12 - UHFIN1 VHFIN GND1 IFIN1 IFIN2 SDA BYP SCL BS1 BS2 BS4 Vcc CXA3555N Application Circuit IF OUT +30V 22k 4700p 1.2H 1000p 240 10k 0.056 220n 10k 10k 10k 2.0 1.5T 10k 1T363 56p 10k 1T362 56p 10k FMT 10p XTAL 1T369 0.5p 12p 100p 100p 0.5p 3.4 2.5T 6p 51 0.5p 3.4 8.5T 8p 20 4MHz 100p 22p 30 IFOUT 8p 22 UOSCE2 8p 21 UOSCE1 29 ADSW 28 BS3 27 REFOSC 26 CPO 25 VT 24 GND2 23 UOSCB2 20 UOSCB1 19 VHOSC2 18 VLOSC2 17 VHOSC1 16 VLOSC1 MIXOUT1 MIXOUT2 UHFIN1 1 2 3 4 33p 5 150p 6 7 1000p 8 9 10 11 12 13 14 15 3k 200 200 3.8 14.5T 47p BVL BVH 1n 3.2 7.5T 1n 2k 1n 4.5T 4.5T BU 1n 1n 1n 47p 1n 56p 56p 1000p 3.3 ADSW SCL SDA +5V 100 1000p VHF IN UHF IN Application circuits shown are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits or for any infringement of third party patent and other right due to same. - 13 - UHFIN2 VHFIN GND1 IFIN1 IFIN2 SDA BYP SCL BS1 BS2 BS4 Vcc CXA3555N Description of Functions The CXA3555N is an analog terrestrial TV broadcasting tuner IC which converts frequencies to IF in order to tune and detect only the desired reception frequency of VHF and UHF band signals. In addition to the mixer, local oscillation and IF amplifier circuits required for frequency conversion to IF, this IC also integrates a PLL circuit for local oscillation frequency control onto a single chip. The functions of the various circuits are described below. 1. Mixer circuit This circuit outputs the frequency difference between the signal input to VHFIN or UHFIN and the local oscillation signal. 2. Local oscillation circuit A VCO is formed by externally connecting an LC resonance circuit composed of a varicap diode and inductance. 3. IF amplifier circuit This circuit amplifies the mixer IF output, and consists of an amplifier stage and low impedance output stage. 4. PLL circuit This PLL circuit fixes the local oscillation frequency to the desired frequency. It consists of a programmable divider, reference divider, phase comparator, charge pump and reference oscillator. The control format supports the I2C bus format. The frequency steps of 31.25, 50 or 62.5kHz can be selected by the I2C bus data-based reference divider frequency division setting value. 5. Band switch circuit The CXA3555N has four sets of built-in PNP transistors for switching between the VL, VH and UHF bands and for switching the FM trap, etc. These PNP transistors can be controlled by the bus data. The emitters for these PNP transistors are connected to the power supply pin (VCC), and are ON and output 5V when the bus data is "1 (H)". - 14 - CXA3555N Description of Analog Block Operation (See the Electrical Characteristics Measurement Circuit.) VHF-Low oscillator circuit * This is a completely balanced oscillator circuit. The oscillation frequency is varied by connecting an LC parallel resonance circuit including a varicap between Pins 16 and 18 via coupled capacitance and controlling the voltage applied to the varicap. VHF-High oscillator circuit * This is a completely balanced oscillator circuit. The oscillation frequency is varied by connecting an LC parallel resonance circuit including a varicap between Pins 17 and 19 via coupled capacitance and controlling the voltage applied to the varicap. VHF mixer circuit * The mixer circuit employs a double balanced mixer with little local oscillation signal leakage. The input format is base input type, with Pin 12 grounded either directly or via a capacitor and the RF signal input to Pin 11. (Pin 12 can also be used to switch the IC gain according to the applied DC voltage value. When switching the gain with Pin 12, the GC bit of the PLL data must be set to "0".) * The RF signal is fed from the oscillator, converted to IF frequency and output from Pins 8 and 9. Pins 8 and 9 are open collectors, so external power feed is necessary. Also, connect single-tuned filters to Pins 8 and 9. UHF oscillator circuit * The oscillator circuit is designed so that two collector ground type Colpitts oscillators perform differential oscillation operation via an LC resonance circuit including a varicap. * Resonance capacitance is connected between Pins 20 and 21, Pins 21 and 22, and Pins 22 and 23, and an LC resonance circuit including a varicap is connected between Pins 20 and 23. UHF mixer circuit * This circuit employs a double balanced mixer like the VHF mixer circuit. The input format is base input type, with Pins 14 and 15 as the RF input pins. The input method can be selected from balanced input consisting of differential input to Pins 14 and 15 or unbalanced input consisting of grounding Pin 14 via a capacitor and input to Pin 15. * Pins 8 and 9 are the mixer outputs. Pins 8 and 9 are open collectors, so external power feed is necessary. Also, connect single-tuned filters to Pins 8 and 9. IF amplifier circuit * Pins 5 and 6 are the IF amplifier inputs, and the input impedance is approximately 1.6k. * The signals frequency converted by the mixer are output from Pins 8 and 9, and Pins 8 and 9 are connected to Pins 5 and 6 via capacitors. (An adjacent channel trap circuit can be formed by connecting LC parallel circuits in place of capacitors.) * The signal amplified by the IF amplifier is output from Pin 30. The output impedance is approximately 10. - 15 - CXA3555N Description of PLL Block This IC is controlled by the I2C bus. The PLL of this IC performs high-speed phase comparison, providing low reference leak and quick lock-up time characteristics. During power on, the power-on reset circuit operates to initialize the frequency data to all "0" and the band data to all "OFF". Power-on reset is performed when VCC 3.2V at room temperature (Ta = 25C). 1) Address setting Up to four addresses can be selected by the hardware bit settings, so that multiple PLL can exist within one system. The responding address can be set according to the ADSW pin voltage. Address 1 1 0 0 0 MA1 MA0 R/W Hardware bits ADSW pin voltage 0 to 0.1Vcc OPEN or 0.2Vcc to 0.3Vcc 0.4Vcc to 0.6Vcc 0.9Vcc to Vcc MA1 0 0 1 1 MA0 0 1 0 1 2) Frequency data setting The VCO lock frequency is obtained according to the following formula. fosc = 2 x fref x (32M + S) fosc: local oscillator frequency fref: phase comparison frequency M: main divider frequency division ratio S: swallow counter frequency division ratio The variable frequency division ranges of M and S are as follows, and are set as binary. S < M 1023 0 S 31 - 16 - CXA3555N 3) Control format When performing control for this IC, byte 1 contains the address data, bytes 2 and 3 contain the frequency data, byte 4 contains the control data, and byte 5 contains the band switch data. These data are latch transferred in the manner of byte 1, byte 2 + byte 3, and byte 4 + byte 5. When the correct address is received and acknowledged, the data is recognized as frequency data if the first bit of the next byte is "0", and as control data and band switch data if this bit is "1". Also, when data transmission is stopped part-way, the previously programmed data is valid. Therefore, once the control and band switch data have been programmed, 3-byte commands consisting of the address and frequency data are possible. Further, even if the I2C bus stop conditions are not met, data can be input by sending the start conditions and the new address. The control format is as shown in the table below. Slave Receiver MSB Mode Address byte Divider byte1 Divider byte2 Control byte Band SW byte bit 7 1 0 M2 1 X bit 6 1 M9 M1 CP X bit 5 0 M8 M0 GC X bit 4 0 M7 S4 CD X bit 3 0 M6 S3 X BS4 bit 2 MA1 M5 S2 R1 BS3 bit 1 MA0 M4 S1 R0 BS2 LSB bit 0 0 M3 S0 OS BS1 A A A A A X: Don't care A: MA0, MA1: M0 to: S0 to: CD: OS: CP: GC: Acknowledge bit address setting main divider frequency division ratio setting swallow counter frequency division ratio setting charge pump OFF (when "1") varicap output OFF (when "1") charge pump current switching (200A when "1", 50A when "0") gain switching (IC gain reduced by 2dB when "1") 1 BS1 to BS4: band switch control (output PNP transistor ON when "1") R0, R1: reference divider frequency division ratio setting (See the Reference Divider Frequency Division Ratio Table.) 1 When switching the gain with the PLL data, ground Pin 12 (BYP) via a capacitor. Reference Divider Frequency Division Ratio Table R1 0 1 X R0 1 1 0 Reference Divider 256 128 160 X: Don't care - 17 - CXA3555N I2C Bus Timing Chart tW;STA SDA tS;STA tR tF tS;STO SCL tH;STA START tS;STA tW;STA tH;STA tLOW tHIGH tLOW tHIGH tS;DAT tH;DAT STOP CLOCK tS;DAT tH;DAT tS;STO tR tF DATA CHANGE = Data setup time = Data hold time = Stop setup time = Rise time = Fall time = Start setup time = Start waiting time = Start hold time = Low clock pulse width = High clock pulse width - 18 - CXA3555N Example of Representative Characteristics Circuit current vs. Supply voltage 60 58 56 Icc - Circuit current [mA] Band SW output voltage vs. Output current (BS1, BS2, BS3, BS4) 5.4 Vcc = 5V 5.3 5.2 Output voltage [V] VHF UHF 54 52 50 48 46 44 42 40 4.7 4.8 4.9 5.0 5.1 5.2 Vcc - Supply voptage [V] 5.3 5.4 5.1 5.0 4.9 4.8 4.7 4.6 0 1 2 3 4 5 Output current [mA] 6 7 Conversion gain vs. Reception frequency (Untuned input) 40 fIF = 45MHz High gain mode CG - Conversion gain [dB] Noise figure vs. Reception frequency (Untuned input, in DSB) 20 fIF = 45MHz High gain mode 15 VHF (High) VHF (Low) UHF UHF VHF (High) 20 NF - Noise figure [dB] 30 VHF (Low) 10 10 5 0 0 100 200 300 400 500 600 700 800 900 Reception frequency [MHz] 0 0 100 200 300 400 500 600 700 800 900 Reception frequency [MHz] Next adjacent cross modulation vs. Reception frequency (Untuned input) 120 110 CM - Cross modulation [dB] VHF (High) VHF (Low) UHF Oscillation frequency power supply fluctuation (PLL off) 400 300 200 VHF (Low) VHF (High) 100 90 80 70 60 50 40 30 20 10 0 0 Vcc + 5% Vcc - 5% (Vcc = 5V) +B drift [kHz] 100 UHF 0 -100 -200 -300 -400 0 fUD = fD + 12MHz fUD = fD - 12MHz (100kHz, 30% AM) fIF = 45MHz High gain mode 100 200 300 400 500 600 700 800 900 Reception frequency [MHz] 100 200 300 400 500 600 700 800 900 Oscillation frequency [MHz] - 19 - CXA3555N Oscillator phase noise vs. Reception frequency (untuned input) 130 120 VHF (Low) VHF (High) UHF VHF (Low) fIF = 45MHz High gain mode C/N - Oscillator phase noise [dBc/Hz] 110 100 90 80 70 VHF (Low) VHF (High) VHF (High) UHF 60 50 40 0 100 200 300 400 500 UHF 1kHz offset 10kHz offset 100kHz offset 600 700 800 900 Reception frequency [MHz] I/O characteristics (untuned input) 20 20 PCS beat characteristics (untuned input) High gain mode 10 10 0 0 -10 fIF IF output level [dBm] IF output level [dBm] -10 -20 -30 -40 fBeat -50 fLocal = 495MHz fP = 449.25MHz fc = 452.83MHz (fP -12dB) fs = 453.75MHz (fP -1.7dB) fIF = 45.75MHz fBeat = fIF 950kHz -20 -30 -40 -60 -50 fRF = 45MHz High gain mode fRF = 145MHz (VHF) fRF = 495MHz (UHF) -50 -40 -30 -20 -10 0 10 20 -70 -80 -40 -60 -60 -30 -20 -10 0 10 20 RF level [dBm] RF level (SG Setting level) [dBm] - 20 - CXA3555N Tuning Response Time VHF (Low) 95MHz VHF (High) 395MHz CP = 0 T = 47.2ms 5.0V/div Offset 10.0V -75.0000ms 25.0000ms 20.0ms/div 125.0000ms CP = 1 T = 15.0ms 5.0V/div Offset 10.0V -40.0000ms 10.0000ms 10.0ms/div 60.0000ms - 21 - CXA3555N UHF 413MHz UHF 847MHz CP = 0 T = 63.6ms 5.0V/div Offset 10.0V -70.0000ms 30.0000ms 20.0ms/div 130.0000ms CP = 1 T = 20.2ms 5.0V/div Offset 10.0V -40.0000ms 10.0000ms 10.0ms/div 60.0000ms - 22 - CXA3555N VHF (High) 395MHz VHF (Low) 95MHz CP = 0 T = 27.0ms 5.0V/div Offset 10.0V -110.0000ms -10.0000ms 20.0ms/div 90.0000ms CP = 1 T = 7.2ms 5.0V/div Offset 10.0V -45.0000ms 5.0000ms 10.0ms/div 55.0000ms - 23 - CXA3555N UHF 847MHz UHF 413MHz CP = 0 T = 35.6ms 5.0V/div Offset 10.0V -110.0000ms -10.0000ms 20.0ms/div 90.0000ms CP = 1 T = 14.4ms 5.0V/div Offset 10.0V -90.0000ms 10.0000ms 20.0ms/div 110.0000ms - 24 - CXA3555N IF output spectrum REF = -10.0dBm 10dB/div VHF (Low) fRF = 55MHz fLO = 100MHz RF input level: -40dBm CENTER 45.00013MHz RES BW 1.0kHz VBW 10Hz SPAN 50.00kHz SWP 30.0s REF = -10.0dBm 10dB/div VHF (High) fRF = 350MHz fLO = 395MHz RF input level: -40dBm CENTER 45.00088MHz RES BW 1.0kHz VBW 10Hz SPAN 50.00kHz SWP 30.0s REF = -0.0dBm 10dB/div UHF fRF = 800MHz fLO = 845MHz RF input level: -40dBm CENTER 45.00188MHz RES BW 1.0kHz VBW 10Hz SPAN 50.00kHz SWP 30.0s - 25 - CXA3555N VHF Input Impedance j25 j50 j100 0 50 50MHz 11 12 1000p 350MHz S11 -j25 -j100 -j50 UHF Input Impedance j50 j25 j100 0 50 14 15 1000p 350MHz S11 -j25 800MHz -j50 -j100 - 26 - CXA3555N IF Output Impedance j50 j25 j100 0 45MHz 38MHz 50 -j25 -j100 -j50 - 27 - CXA3555N Package Outline Unit: mm 30PIN SSOP (PLASTIC) + 0.2 1.25 - 0.1 9.7 0.1 0.10 30 16 5.6 0.1 A 1 b 0.13 M 15 0.65 b=0.22 0.03 0.1 0.1 0.5 0.2 DETAIL B : PALLADIUM NOTE: Dimension "" does not include mold protrusion. 0 to 10 PACKAGE STRUCTURE DETAIL A PACKAGE MATERIAL SONY CODE EIAJ CODE JEDEC CODE SSOP-30P-L01 P-SSOP30-5.6x9.7-0.65 LEAD TREATMENT LEAD MATERIAL PACKAGE MASS EPOXY RESIN PALLADIUM PLATING COPPER ALLOY 0.1g + 0.03 0.15 - 0.01 7.6 0.2 Sony Corporation - 28 - |
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