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| Ordering number : EN2887B Monolithic Linear IC LA1805 AM/FM-IF/MPX Tuner System for Radio-Casette Recorders, Music Centers Overview Package Dimensions The LA1805 is a characteristics-improved version of the unit : mm LA1810, with the same pin assignment and package as 3067-DIP24S those of the LA1810. Improvements are made on the following point : * Separation (35dB48dB) and its dependence on freerunning frequency (Sep - fF Characteristic on page 4). * FM main distortion (0.8%0.45%). * AM detection output (approximately 5dB increased). The constants on five external parts are changed as shown on page 10. 24 [LA1805] 13 7.62 6.4 1 21.2 12 Functions * FM-IF : IF amp, quadrature detector, soft muting, tuning indicator. * MPX : PLL stereo decoder, stereo indicator, forced monaural, VCO stop. * AM :RF amp, MIX, OSC (with ALC), IF amp, detector, AGC, tuning indicator. 0.51min 3.3 3.25 3.9max 0.81 1.78 0.48 0.95 SANYO : DIP24S Features * FM/AM/MPX functions contained on a single chip. * Minimum number of external parts required. * On-chip FM muting function. * High sensitivity. * Less carrier leak of MPX. Specifications Maximum Ratings at Ta=25C, See specified Test Circuit. Parameter Maximum supply voltage Maximum supply current Flow-in current (Indicator drive current) Flow-out current Allowable power dissipation Operating temperature Storage temperature I23 Pd max Topr Tstg Pin 23 Ta70C 0.1 500 -20 to +70 -40 to +125 mA mW C C Symbol VCC max ICC max ILED Conditions Pins 3, 7, 8, 11, 20, 21 Pins 3+20+21 Pins 7, 8 Ratings 9 50 20 Unit V mA mA SANYO Electric Co.,Ltd. Semiconductor Bussiness Headquarters TOKYO OFFICE Tokyo Bldg., 1-10, 1 Chome, Ueno, Taito-ku, TOKYO, 110 JAPAN 12798HA (KT)/D0994JN/4030MO/N148YT, TS No.2887-1/13 0.25 LA1805 Operating Conditions at Ta=25C Parameter Symbol Conditions Ratings 4.5 3.0 to 8.0 Unit V V Recommended operating voltage VCC Operating voltage range VCC op Note : The FM output level forms an N curve (LA1805) and an S curve (LA1806). LA1805 : N curve (for US band) LA1806 : S curve (for Japanese band). Your desired output level can be set by varying the output resistance. Operating Characteristics at Ta=25C, VCC=4.5V, See Test Circuit Parameter Symbol Conditions min Ratings typ max 13 28 140 0 70 23 32 2.4 205 0 0.45 80 33 48 0.45 3.9 2.7 No input VIN=23dB, 30% mod. VIN=80dB, 30% mod. VIN=23dB, 30% mod. VIN=80dB, 30% mod. VIN=80dB, 30% mod. VIN=100dB, 30% mod. IL=1mA 16 27 70 17 50 9.5 50 113 21 55 0.45 0.6 24 1.2 1.5 32 14.5 90 173 1.2 5.4 43 20 35 280 1.5 1.2 Unit [FM characteristics (Mono) : fc=10.7MHz, fm=1kHz] Quiescent current -3dB sensitivity Demodulation output Channel balance Total harmonic distortion Signal to noise ratio LED ON sensitivity Separation Stereo distortion LED ON level LED OFF level Quiescent current Demodulation output Signal to noise ratio Total harmonic distortion LED on sensitivity Icco -3dBL.S. VO C.B. THD S/N VLED Sep THD (Main) VLED-on VLED-off Icco VO1 VO2 S/N1 S/N2 THD1 THD2 VLED No input Referenced to VIN=100dB, 100%, down 3dB VIN=100dB, 100% mod. VIN=100dB, 100% mod. VIN=100dB, 100% mod. VIN=100dB, 100% mod. IL=1mA mV dB % dB dB dB % % % mA mV mV dB dB % % dB mA dB [FM characteristics (Stereo) : fc=10.7MHz, fm=1kHz, L+R=90%, pilot=10%, VIN=100dB] [AM characteristics : fc=1000kHz, fm=1kHz] Note : Be fully careful of dielectric breakdown. Equivalent Circuit Block Diagram No.2887-2/13 LA1805 Test Circuit Polystyrene film capacitor Differs from the application circuit where a front end is used. (See Sample Application Circuit on page 10.) How to use the LA1805 Unit (resistance : , capacitance : F) 1. Forced monaural mode. Figures 1 and 2 show how to cause the forced monaural mode to be entered. (1) Connect pin 14 to VCC through a resistor of 100k. (Turn ON the SW1 in Figure 1.) (2) Connect pin 15 to GND through a resistor of 47k. (Turn ON the SW2 in Figure 2.) Figure 1 Forced Monaural Mode Setting Method Figure 2 Forced Monaural Mode Setting Method Forced Monaural Mode Setting Resistance FreeRunning Frequency Free-running frequency - kHz Either above-mentioned (1) or (2) causes the forced monaural mode to be entered. In this case, the VCO does not stop operating. If the resistance of R1 and R2 are decreased, internal bias will vary when the S1 or S2 is turned ON. This data is shown in Figure 3. Figure 3 No.2887-3/13 LA1805 2. VCO Stop The VCO is so designed as to stop automatically at the AM mode. (when pin 11 and pin 21 are at the same potential) There is no pin available for stopping the VCO at the FM mode. However, the method shown right can be used to stop the VCO at the FM mode, causing the forced monaural mode to be entered. Make the wiring as short as possible. 3. Free-running frequency measurement and adjustment Either of the following two methods is used to measure the free-running frequency. (1) Connect pin 13 to a frequency counter through the high input impedance amplifier. (2) Connect the connection point of the semifixed resistor connected to pin 13 and the fixed resistor to a frequency counter through the resistor of 240k or greater. Figure 4 Figure 5 Figure 6 How the error changes with the resistor value is shown in Figure 7. Measured error, f - % IF input 100dB Nonmodulation Resistor value, RX - k Figure 7 * When setting the free-running frequency, the following must be noted. Apply a 10.7MHz 100dB nonmodulation carrier as IF input signal and set to 76kHz50Hz with the tuning indicator lighted. 4. Separation setting capacitor Cs The separation characteristic for the LA1805 alone (IF input) differs from that for the antenna input with a front end. This difference is caused by the characteristics of the front end and ceramic filter. Shown right is how the separation characteristic changes with the separation setting capacitor value when the LA1186N is used as front end. Referring to this separation characteristic, choose the optimum separation for your set model. Separation, Sep - dB Free-running frequency, fF - kHz Figure 8 No.2887-4/13 LA1805 5. FM muting pin The external resistor connected to pin 12 can be used to vary the muting level (Figure 9). The abnormal sound at the time of side peak reception at the FM mode can be reduced by weak signal muting. LA1186N+LA1805 Muting Characteristics LA1186N+LA1805 Attenuation - Detuning Frequency Noise, Output - dBm Noise Input - dB Detuning frequency, f - kHz Figure 9 Figure 10 6. The following method can be used to change the LED ON sensitivity at the FM mode (Figure 11). The data on the LED ON sensitivity setting resistance and LED ON sensitivity is shown in Figure 12. LED ON Sensitivity - R Figure 11 Method to Change the LED ON Sensitivity at the FM Mode Unit (capacitance : F) LED ON sensitivity - dB Reference (R=Open) Resistance, R - Figure 12 7. AM-FM selection The FM mode is entered with pin 11 open as shown in Figure 13. When pin 11 and pin 21 are made to be at the same potential in terms of DC, the AM mode is entered. It should be noted that the dynamic range is narrowed whether the potential at pin 11 is lower or higher than that at pin 21. Figure 13 8. If a noise appears in the detection output when the tuning LED goes ON at the AM mode, connect a capacitor across pin 8 and GND to eliminate the noise. Attenuation - dB No.2887-5/13 LA1805 FM Characteristics Total harmonic distortion, THD - % AM Characteristics Total harmonic distortion, THD - % Noise, Detection output - dBm Demodulation output Noise, AM output, Demodulation output - dBm Detection output AM outp ut No ise Noise Input - dB Selectivity Characteristic Output 20mV const. Input - dB/m Fidelity Characteristics input const. Total harmonic distortion, THD - % Modulation frequency - Hz MW Reception Characteristic Tracking at each frequency IF interferen ce Detuning frequency, f - kHz Whistle Characteristic tput (1kHz30% mod) Attenuation - dB Detection ou Ma Sensitivity - dB/m, Interference ratio - dB Detection output, Whistle output - dBm Response - dB x. w hist le ( 2f1 ) Image interfe frequency rence Usable sensitivity Max. sensitivity (1kHz-30% mod, output=20mV) Input - dB/m Receiving frequency - kHz No.2887-6/13 LA1805 FM VCC Characteristics Total harmonic distortion, THD - % Sensitivity - dB/m AM VCC Characteristics Total harmonic distortion, THD - % mod Demodulation output Detection output - dBm Detection output - dBm Detection output (100% mo d) Sensitivity - dB Max. sensitivity (output=20mV, 30% mod) LED ON sensitivity LED ON sensitivity THD (100% mod) Supply voltage, VCC - V Supply voltage, VCC - V Total harmonic distortion, THD - % Output - dBm Sensitivity - dB S/N - dB Output - dBm Temperature Characteristics Total harmonic distortion, THD - % FM Temperature Characteristics Demodulation output, input=10 0dB Detection output, input=60dB THD, input=10 Input S/N, input=60dB 0dB , 1kHz-30 % mod S/N, input=100dB THD, input=100dB Sensitivity - dB LED ON sensitivity S/N=20dB sensitivity, 1kHz-30% LED sensi tivity Output 20mV sensitivity, 1kHz-30% mod Ambient temperature, Ta - C Lamp ON Sensitivity - VCC Ambient temperature, Ta - C Pilot modulation - % Pilot level - mV ON level OFF level Capture range - % IF input Nonmodulation Supply voltage, VCC - V Separation, Sep - dB IF input 100dB Supply voltage, VCC - V Supply voltage, VCC - V No.2887-7/13 LA1805 Total harmonic distortion, THD - % IF input 100dB (10.7MHz) Separation, Sep - dB IF input 100dB Supply voltage, VCC - V Frequency, f - Hz Total harmonic distortion, THD - % IF input 100dB Total harmonic distortion, THD - % IF input 100dB Frequency, f - Hz Carrier Leak - VCC Free-running frequency drift, f - % Modulation, Dev. - kHz Free-Running Frequency Drift Characteristic without de-emphasis carrier leak IF input 100dB Nonmodulation Carrier leak - dB carrier leak Stereo (pilot modulation) with de-emphasis carrier leak IF input 100dB 0dB : mono output level Supply voltage, VCC - V SW2 Characteristics Ambient temperature, Ta - C SW2 Characteristics Noise voltage, Detection output - dBm Total harmonic distortion, THD - % n ou Detectio tput (30 % mod) Pin4 voltage, V4 - V No ise Adjust so that THD is minimized. IEC input - dB IEC input - dB No.2887-8/13 LA1805 SW2 Characteristic Pin 24 voltage Oscillation voltage, VOSC - % Interference ratio - dB Sensitivity - dB SW2 Characteristics Usable sensitivity Max. sen sitivity Im inte age fr rfer equ enc enc y e Receiving frequency, fr - MHz Receiving frequency, fr - MHz SW Band Test Circuit Unit (capacitance : F) T1 : YT-30117 (Mitsumi), 2158-4095-319A (Sumida) T2 : HW-40184 (Mitsumi), 0237-1500 (Sumida) LW Characteristics Noise output, Detection output - dBm Total harmonic distortion, THD - % LW Characteristics Pin 4 voltage, V4 - V Demodu lation ou tput ANT input - dB/m LW Characteristics Sensitivity - dB/m Interference ratio - dB No ise ANT input - dB/m LW Band Test Circuit Oscillation voltage, VOSC - mV Us sen able siti vity n freque Image rence rfe inte cy Max. se nsitivity (Mitsumi) (Mitsumi) Receiving frequency, fr - kHz Unit (capacitance : F) No.2887-9/13 LA1805 Sample Application Circuit : LA1186N+LA1805 FM/MW (Mitsumi) (Mitsumi) (Mitsumi) Note : The constants of parts *1 to *5 are changed from those of the LA1810. (Mitsumi) (Mitsumi) (Mitsumi) (Mitsumi) No.2887-10/13 Unit (resistance : , capacitance : F) LA1805 Sample Printed Circuit Pattern (See Sample Application Circuit.) (Cu-foiled area) Unit (resistance : , capacitance : F) LA1186N + LA1805 Over Characteristics Detection output, Noise voltage - dBm Total harmonic distortion, THD - % LA1186N + LA1805 Over Characteristics Detection output AM output Noise voltage ANT input voltage - dB ANT input voltage - dB Differences between LA1805 and LA1806 (1) Same pin assignment (2) The internal circuit of the MPX OUT (pin 9, pin 10) is different as shown below. The FM S curve at pin 17 is in the opposite direction and the circuit in which AFC is provided is the same for the US band and Japanese band. The LA1805 contains the output load resistors (Output load resistance=6.8k) For the LA1806, output load resistors RL, RR are connectedxternally. The graph of demodulation output vs. RL (RR) is shown below. No.2887-11/13 LA1805 LA1806 FM Characteristic Demodulation output - mVrms External load resistance, RL - k Coil Specifications * MW bar antenna TN-10896 (Mitsumi) * AM IFT HW-6215 (Mitsumi) HW-6194 SFU-450B * MW OSC HW-6193 (Mitsumi) * FM quadrature YT-30103 (Mitsumi) * SW2 OSC HW-40184 (Mitsumi) 0237-1500 (Mitsumi) * SW2 ANT YT-30117 (Mitsumi) 2158-4095-319A (Sumida) * LW bar antenna HH-50161 (Mitsumi) * LW OSC MA-7014 (Mitsumi) No.2887-12/13 LA1805 No products described or contained herein are intended for use in surgical implants, life-support systems, aerospace equipment, nuclear power control systems, vehicles, disaster/crime-prevention equipment and the like, the failure of which may directly or indirectly cause injury, death or property loss. Anyone purchasing any products described or contained herein for an above-mentioned use shall: Accept full responsibility and indemnify and defend SANYO ELECTRIC CO., LTD., its affiliates, subsidiaries and distributors and all their officers and employees, jointly and severally, against any and all claims and litigation and all damages, cost and expenses associated with such use: Not impose any responsibilty for any fault or negligence which may be cited in any such claim or litigation on SANYO ELECTRIC CO., LTD., its affiliates, subsidiaries and distributors or any of their officers and employees jointly or severally. Information (including circuit diagrams and circuit parameters) herein is for example only; it is not guaranteed for volume production. SANYO believes information herein is accurate and reliable, but no guarantees are made or implied regarding its use or any infringements of intellectual property rights or other rights of third parties. This catalog provides information as of January, 1998. Specifications and information herein are subject to change without notice. No.2887-13/13 |
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