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| n2206 / 42606 ms ot b8-8172 no.7637-1/13 LA75695VA overview the LA75695VA is a ntsc support vif/sif signal-processing ic that makes the minimum number of adjustments possible. the system is designed so that vco adjustment makes aft adjustment unnecessary, thus simplifying the adjustment steps in endproduct manufacturing. pll detection is adopted in the fm detector, allowing the LA75695VA to support multichannel detection for the audio signal. in addition, it also incorporates a buzz canceller that suppresses nyquist buzz for improved audio quality. functions ? vif block: vif amplifier, buzz canceller, pll det ector, if agc, rf agc, aft, equalizer amplifier ? 1st sif block: 1st sif amplifier, 1st sif detector ? sif block: limiter amplifier, pll-fm detector specifications maximum ratings at ta = 25 c parameter symbol conditions ratings unit v cc 1 max 6 v maximum supply voltage v cc 2 max 12 v circuit voltage v 13 , v 17 v cc v i 6 -3 ma i 10 -10 ma circuit current i 24 -2 ma allowable power dissipation pd max ta 70 c, mounted on a board. * 600 mw operating temperature topr -20 to +75 c storage temperature tstg -55 to +150 c ? when mounted on a 114.3 76.1 1.6mm 3 , glass epoxy circuit board. orderin g number : en7637 monolithic linear ic for use in tv/vtr applications if signal processing (vif+sif+sif converter) any and all sanyo semiconductor products described or contained herein do not have specifications that can handle applications that require extremely high levels of reliability, such as life-support systems, aircraft's control systems, or other applications whose failure can be reasonably expected to result in serious physical and/or material damage. consult with your sanyo semiconductor representative nearest you before using any sanyo semiconductor products described or contained herein in such applications. sanyo semiconductor assumes no responsibility for equipment failures that result from using products at values that exceed, even momentarily, rated values (such as maximum ratings, operating condition ranges, or other parameters) listed in products specifications of any and all sanyo semiconductor products described or contained herein.
LA75695VA no.7637-2/13 recommended operating conditions at ta = 25c parameter symbol conditions ratings unit v cc 1 5 v recommended supply voltage v cc 2 9 v v cc 1 op 4.5 to 5.5 v operating voltage v cc 2 op 4.5 to 9.5 v electrical characteristics at ta = 25c, v cc 1 = 5v, v cc 2 = 9v, fp = 45.75mhz vif block ratings parameter symbol conditions min typ max unit circuit current 1 i 5 35.7 42 48.3 ma circuit current 2 i 4 6.7 7.9 9.1 ma maximum rf agc voltage v 14 h v cc 2-0.5 v cc 2 v minimum rf agc voltage v 14 l 0 0.5 v input sensitivity v i s1 = off 30 36 42 db v agc range gr 50 56 db maximum allowable input v i max 95 100 db v no-signal video output voltage v 6 3.1 3.4 3.7 v sync. signal tip voltage v 6 tip 0.8 1.1 1.3 v video output level v o 1.7 2.0 2.3 vp-p black noise threshold voltage v bth 0.5 0.8 1.1 v black noise clamp voltage v bcl 1.7 2.1 2.4 v video s/n s/n 48 52 db c-s best ic-s 38 43 db frequency characteristics f c 6mhz -3 -1.5 db differential gain dg 3 6.5 % differential phase dp 3 5 c no-signal aft voltage v 13 2.0 2.5 3.0 v maximum aft voltage v 13 h v cc 2-1.0 v cc 2-0.5 v cc 2 v minimum aft voltage v 13 l 0 0.18 1.0 v aft detection sensitivit y sf 17 25 34 mv/khz vif input resistance r i 45.75mhz 1.5 k ? vif input capacitance c i 45.75mhz 3 pf apc pull-in range (u) fpu 0.7 1.5 mhz apc pull-in range (l) fpl -1.5 -0.9 mhz aft tolerance frequency 1 ? fa1 -150 0 150 khz vco1 maximum variable range (u) dfu 1.0 1.5 mhz vco1 maximum variable range (l) dfl -1.5 -1 mhz vco control sensitivity 1.2 3.2 5.0 khz/mv synchronization ratio v s 25.0 28.5 31.5 % 1st sif block ratings parameter symbol conditions min typ max unit conversion gain v g 22 28 32 db 4.5mhz output level s o 80 120 160 mvrms 1st sif maximum input s i max 50 100 mvrms 1st sif input resistance r i (sif) 41.25mhz 2 k ? 1st sif input capacitance c i (sif) 41.25mhz 3 pf LA75695VA no.7637-3/13 sif block ratings parameter symbol conditions min typ max unit limiting sensitivity v i (lim) 48 52 58 db v fm detector output voltage v o (fm) 4.5mhz 25khz * 420 500 620 mvrms am rejection ratio amr 50 60 db distortion thd 0.3 0.8 % sif s/n s/n (fm) 63 69 db * if the dynamic range of the fm detection output needs to be widened, connect a resistor and a capacitor in series between pin 23 and gnd for level adjustment. sif converter ratings parameter symbol conditions min typ max unit maximum output level v max 110 116 122 db v package dimensions unit : mm 3287 6.4 6.5 0.5 4.4 (0.5) (1.3) 24 13 1 12 0.22 0.5 0.15 0.1 1.5max sanyo : ssop24(225mil) LA75695VA no.7637-4/13 pin assignment LA75695VA no.7637-5/13 block diagram and ac charac teristics test circuit LA75695VA no.7637-6/13 input impedance test circuit test conditions v1. circuit current [i 5 ] (1) internal agc (2) input a 45.75mhz 10mvrms continuous wave to the vif input pin. (3) rf agc vr max (4) connect an ammeter to the v cc 1 and measure the incoming current. v2. circuit current [i 4 ] (1) internal agc (2) input a 45.75mhz 10mvrms continuous wave to the vif input pin. (3) rf agc vr max (4) connect an ammeter to the v cc 2 and measure the incoming current. v3. v4. maximum rf agc voltage, minimum rf agc voltage [v 14 h, v 14 l] (1) internal agc (2) input a 45.75mhz 10mvrms continuous wave to the vif input pin. (3) adjust the rf agc vr (resistor value max.) and measure the maximum rf agc voltage. f (4) adjust the rf agc vr (resistor value min.) and measure the minimum rf agc voltage. f v5. input sensitivity [vi] (1) internal agc (2) fp = 45.75mhz 15khz 78% am (vif input) (3) turn off the s1 and put 100k ? through. (4) vif input level at which the 15khz detection output level at test point a becomes v o -3db. LA75695VA no.7637-7/13 v6. agc range [gr] (1) apply the v cc voltage to the external agc, if agc (pin 17). (2) in the same manner as for the v5 (input sensitivity), measure the vif input level at which the detection output level becomes v o -3db. vil (3) gr = vil?vi v7. maximum allowable input [vi max] (1) internal agc (2) fp = 45.75mhz 15khz 78% am (vif input) (3) vif input level at which the detection output level at test point a is video output (v o ) 1db. v8. no-signal video output voltage [v 6 ] (1) apply the v cc voltage to the external agc, if agc (pin 17). (2) measure the dc voltage of video output (a). v9. sync. signal tip voltage [v 6 tip] (1) internal agc (2) input a 45.75mhz 10mvrms continuous wave to the vif input pin. (3) measure the dc voltage of video output (a). v10. video output level [v o ] (1) internal agc (2) fp = 45.75mhz 15khz 78% am v i = 10mvrms (vif input) (3) measure the peak value of the detection output level at test point a. (vp-p) v11.v12. black noise threshold level and clamp voltage [v bth , v bcl ] (1) apply dc voltage to the external agc, if agc (pin 17) and adjust the voltage. (2) fp = 45.75mhz 400hz 40% am 10mvrms (vif input) (3) adjust the if agc (pin 17) voltage to operate the noise canceller. measure the v bth , v bcl at test point a. v13. video s/n [s/n] (1) internal agc (2) fp = 45.75mhz cw = 10mvrms (vif input) (3) measure the noise voltage at test point a in rms volts through a 10khz to 4mhz band-pass filter. noise voltage (n) (4) s/n = 20log = 20log (db) video portion (vp-p) noise voltage (vrms) 1.12vp-p noise voltage (vrms) LA75695VA no.7637-8/13 v14. c/s beat [ic-s] (1) apply dc voltage to the external agc if agc (pin 17) and adjust the voltage. (2) fp = 45.75mhz cw; 10mvrms fc = 42.17mhz cw; 10mvrms ? 10db fs = 41.25mhz cw; 10mvrms ? 10db (3) adjust the if agc (pin 17) voltage so that the output dc level at test point a becomes 2.4v. (4) measure the difference between the levels for 3.58mhz and 0.92mhz components at test point a. v15. frequency characteristics [fc] (1) apply dc voltage to the external agc if agc (pin 17) and adjust the voltage. (2) sg1 : 45.75mhz continuous wave 10mvrms sg2 : 45.65mhz to 39.75mhz continuous wave 2mvrms add the sg1 and sg2 signals using a t pa t and adjust each sg signal level so that the above-mentioned levels are reached and input the added signals to the vif in. (3) first set the sg2 frequency to 45.65m hz, and then adjust the if agc voltage (v17) so that the output level at test point a becomes 0.5vp-p. v1 (4) set the sg2 frequency to 39.75mhz and measure the output level. v2 (5) calculate as follows : fc = 20log (db) v16.v17. differential gain, differential phase [dg, dp] (1) internal agc (2) fp = 45.75mhz apl50% 87.5% modulation video signal v i = 10mvrms (3) measure the dg and dp at test point a. v18. no-signal aft voltage [v 13 ] (1) internal agc (2) measure the dc voltage at the aft output (b). v2 v1 LA75695VA no.7637-9/13 v19.v20.v21. maximum, minimum aft out put voltage, aft detection sensitivity [v 13 h, v 13 l, sf] (1) internal agc (2) fp = 45.75mhz 1.5mhz sweep = 10mvrms (vif input) (3) maximum voltage : v 13 h, minimum voltage : v 13 l. (4) measure the frequency deviation at which the voltage at test point b changes from v1 to v2. ? f v22.v23. vif input resistance, input capacitance [r i , c i ] (1) referring to the input impedance test circuit, measure r i and c i with an impedance analyzer. v24.v25. apc pull-in range [fpu, fpl] (1) internal agc (2) fp = 39mhz to 51mhz continuous wave; 10mvrms (3) adjust the sg signal frequency to be higher than fp = 45.75mhz to bring the pll to unlocked state. note : the pll is assumed to be in unlocked st ate when a beat signal appears at test point a. (4) when the sg signal frequency is lowered, the pll is brought to locked state again. f1 (5) lower the sg signal frequency to bring the pll to unlock state. (6) when the sg signal frequency is raised, the pll is brought to locked state again. f2 (7) calculate as follows : fpu = f1?45.75mhz fpl = f2?45.75mhz v26. aft tolerance frequency 1 [dfa1] (1) internal agc (2) sg1 : 43.75mhz to 47.75mhz variable continuous wave 10mvrmns (3) adjust the sg1 signal frequency so that the aft output dc voltage (test point b) becomes 2.5v; that sg1 signal frequency is f1. (4) external agc (adjust the v 17 .) (5) apply 5v to the if agc (pin 17) and then pick up the vco oscillation frequency from gnd, etc.; and measure the fre quency f2 (6) calculate as follows : aft tolerance frequency : dfa1 = f2?f1 (khz) v27.v28. vco maximum variable range (u, l) [dfu, dfl] (1) apply the v cc voltage to the external agc, if agc (pin 17). (2) pick up the vco oscillation frequency from the video output (a), gnd, etc. and adjust the vco coil so that the frequency becomes 45.75mhz. (3) fl is taken as the frequency when 1v is applied to the apc pin (pin 9). in the same manner, fu is taken as the frequency when 5v is applied to the apc pin (pin 9). dfu = fl?45.75mhz dfl = fl?45.75mhz LA75695VA no.7637-10/13 v29. vco control sensitivity [ ] (1) apply the v cc voltage to the external agc, if agc (pin 17). (2) pick up the vco oscillation frequency from the vi deo output (a), gnd, etc. and adjust the vco coil so that the frequency becomes 45.75mhz. (4) f1 is taken as the frequency when 3.0v is applied to the apc pin (pin 9). in the same manner, f2 is taken as the frequency when 3.4v is applied to the apc pin (pin 9). = (khz/mv) v30. synchronization ratio [v s ] (1) internal agc (2) fp = 45.75mhz 87.5% 10step b/w v i = 10mvrms (3) measure the output amplitude at the measuring point a. vvideo (4) measure the pedestal voltage (dc) at the measuring point a. vped v s = (vped?v6tip) / vvideo 100 (%) f1. 1st sif conversion gain [v g ] (1) internal agc (2) fp = 45.75mhz cw; 10mv (vif input) fs = 41.25mhz cw; 500 v (1st sif input) v1 (3) detection output level at test point c (vrms) v2 (4.5mhz) (4) v g = 20log db f2. 4.5mhz output level [s o ] (1) internal agc (2) fp = 45.75mhz cw; 10mv (vif input) fs = 41.25mhz cw; 10mv (1st sif input) v1 (3) detection output level at test point c (4.5mhz) s o (mvrms) f3. 1st sif maximum input [s i max] (1) internal agc (2) fp = 45.75mhz cw; 10mv (vif input) fs = 41.25mhz cw; variable (1st sif input) (3) input level at which the detection output at test point c (4.5mhz) becomes s o 2db. s i max f4.f5. 1st sif input resistance, input capacitance [r i (sif1), c i (sif1)] (1) using an input analyzer, measure r i and c i in the input impedance measuring circuit. s1. sif limiting sensitivity [v i (lim)] (1) apply the v cc voltage to the external agc, if agc (pin 17). (2) fs = 4.5mhz fm = 400hz ? f = 25khz (sif input) (3) set the sif input level to 100mvrms and then measure the level at test point d. v1 (4) lower the sif input level until v1 -3db occu rs. measure the input level at that moment. s2.s4. fm detection output voltage, distortion factor [v o (fm), thd] (1) apply the v cc voltage to the external agc, if agc (pin 17). (2) fs = 4.5mhz fm = 400hz ? f = 25khz (sif input v i = 100mvrms) (3) assign the level at test point d to the fm detection output voltage and measure the distortion factor. s3. am rejection ratio [amr] (1) apply the v cc voltage to the external agc, if agc (pin 17). (2) fs = 4.5mhz fm = 400hz am = 30% (sif input v i = 100mvrms) (3) measure the output leve l at test point d. vam (4) amr = 20log db f2?f1 400 v2 v1 v o (fm) vam LA75695VA no.7637-11/13 s5. sif s/n [s/n (fm)] (1) external agc (v 17 = v cc ) (2) fs = 4.5mhz no mod vi = 100mvrms (3) measure the output leve l at test point d. vn (4) s/n (fm) = 20log db c2. sif converter maximum output level [v max] (1) internal agc (2) fp = 45.75mhz cw; 10mv (vif input) fs = 41.25mhz cw; 10mv (1st sif input) (3) measure the 4.5mhz component at te st point e (mix output). v max (db v) note 1) unless otherwise spec ified for vif test, apply the v cc voltage to the if agc and adjust the vco coil so that oscillation occurs at 45.75mhz. 2) unless otherwise specified, the sw1 must be on. sample application circuit * when using a 5v common power supply for v cc 1 and v cc 2, connect an l (= 10 h) across pins 4 to 5, and disconnect c (100 f and 0.01 f) from pin 4. v o (fm) vn LA75695VA ps no.7637-12/12 specifications of any and all sanyo semiconductor products described or contained herein stipulate the performance, characteristics, and functions of the described products in the independent state, and are not guarantees of the performance, characteristics, and functions of the described products as mounted in the customer's products or equipment. to verify symptoms and states that cannot be evaluated in an independent device, the customer should always evaluate and test devices mounted in the customer's products or equipment. sanyo semiconductor co., ltd. strives to supply high-quality high-reliability products. however, any and all semiconductor products fail with some probability. it is possible that these probabilistic failures could give rise to accidents or events that could endanger human lives, that could give rise to smoke or fire, or that could cause damage to other property. when designing equipment, adopt safety measures so that these kinds of accidents or events cannot occur. such measures include but are not limited to protective circuits and error prevention circuits for safe design, redundant design, and structural design. in the event that any or all sanyo semiconductor products (including technical data,services) described or contained herein are controlled under any of applicable local export control laws and regulations, such products must not be exported without obtaining the export license from the authorities concerned in accordance with the above law. no part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopying and recording, or any information storage or retrieval system, or otherwise, without the prior written permission of sanyo semiconductor co., ltd. any and all information described or contained herein are subject to change without notice due to product/technology improvement, etc. when designing equipment, refer to the "delivery specification" for the sanyo semiconductor product that you intend to use. information (including circuit diagrams and circuit parameters) herein is for example only; it is not guaranteed for volume production. sanyo semiconductor 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 april, 2006. specifications and information herein are subject to change without notice. |
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