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| tda1302_1 2 wed sep 14 13:30:56 1994 september 1994 2 philips semiconductors preliminary speci?cation data ampli?er and laser supply circuit for cd player and read only optical systems tda1302t features six input buffer amplifiers with low-pass filtering and with virtually no offset hf data amplifier with a high or low gain mode two built-in equalizers for single or double-speed mode ensuring high performance in both modes fully automatic laser control including stabilization and an on/off switch, plus a separate supply (v ddl ) for power reduction adjustable laser bandwidth and laser switch-on current slope protection circuit to prevent laser damage due to supply voltage dip optimized interconnectiion between pick-up detector and digital servo processor (tda1301t) wide supply voltage range wide temperature range low power consumption. general description the tda1302t is a data amplifier and laser supply circuit for three-beam pick-up detectors applied in a wide range of mechanisms for compact disc and read only optical systems. the device contains 6 amplifiers which amplify and filter the focus and radial diode signals and provides an equalized rf signal suitable for single or double speed mode; the mode can be switched by means of the speed control pin. the device can accommodate astigmatic, single foucault and double foucault detectors and can be applied to all n-sub laser/monitor diode units even though the circuit has been optimized for the philips cdm12 mechanisms and the digital servo controller tda1301t. after a single initial adjustment the circuit will maintain control over the laser diode current thus resulting in a constant light output power which is independent of ageing. the ic is mounted in a small-outline package to enable it to be mounted close to the laser pick-up unit on the sledge. quick reference data ordering information symbol parameter conditions min. typ. max. unit v dd supply voltage (pin 18) 3.4 - 5.5 v diode current ampli?ers g dn ampli?cation - 1.55 - db i os(d) diode output offset current - - 100 na b 3 db bandwidth i i(d) = 1.67 m a 50 - - khz rfe ampli?er (built-in equalizer) t d(eq) equalization delay f i = 0.3 mhz - 320 - ns t d(f) ?atness delay double-speed - 5 - ns laser supply i o(l) output current v ddl = 3 v - - - 100 ma type number package name description version tda1302t so24 plastic small outline package; 24 leads; body width 7.5 mm sot137-1
tda1302_1 3 wed sep 14 13:30:56 1994 september 1994 3 philips semiconductors preliminary speci?cation data ampli?er and laser supply circuit for cd player and read only optical systems tda1302t schematic diagram v v v v v fig.1 schematic diagram for cd player. tda1302_1 4 wed sep 14 13:30:56 1994 september 1994 4 philips semiconductors preliminary speci?cation data ampli?er and laser supply circuit for cd player and read only optical systems tda1302t block diagram fig.2 block diagram. tda1302_1 5 wed sep 14 13:30:56 1994 september 1994 5 philips semiconductors preliminary speci?cation data ampli?er and laser supply circuit for cd player and read only optical systems tda1302t pinning symbol pin description o4 1 output of diode current ampli?er 4 o6 2 output of diode current ampli?er 6 o3 3 output of diode current ampli?er 3 o1 4 output of diode current ampli?er 1 o5 5 output of diode current ampli?er 5 o2 6 output of diode current ampli?er 2 ldon 7 control pin for switching the laser on and off v ddl 8 laser supply voltage rfe 9 equalized output voltage of sum signal of ampli?ers 1 to 4 rf 10 unequalized output hg 11 control pin for gain switch ls 12 control pin for speed switch cl 13 external capacitor adj 14 reference input normally connected to ground via a resistor gnd 15 0 v supply; substrate connection (ground) lo 16 current output to the laser diode mi 17 laser monitor diode input v dd 18 ampli?er supply voltage i2 19 photo detector input 2 (central) i5 20 photo detector input 5 (satellite) i1 21 photo detector input 1 (central) i3 22 photo detector input 3 (central) i6 23 photo detector input 6 (satellite) i4 24 photo detector input 4 (central) fig.3 pin configuration. tda1302_1 6 wed sep 14 13:30:56 1994 september 1994 6 philips semiconductors preliminary speci?cation data ampli?er and laser supply circuit for cd player and read only optical systems tda1302t functional description the tda1302t can be divided into two main sections, the laser control circuit and the photo diode signal filter and amplification section. laser control circuit the main function of the laser control circuit is to control the laser diode current in order to achieve a constant light output power which is based on the current of the monitor diode which is continuously monitored. the circuit is built up into three parts. the first part is the input stage which compares the monitor diode current with a current which is 10 times the value of the adjustable current. the adjustable current is derived from a bandgap reference source, to be temperature independent, and can be further adjusted by the external resistor r adj in order to adapt the circuit to the parameters of the laser/monitor diode unit to be used. the difference is fed to the second part. the second part is the integrator stage which makes use of an external capacitor cl. this capacitor has two different functions. during switch-on of the laser current, it provides a current slope of typically: di lo /dt @ 10 - 6 /cl (a/s). after switch-on it ensures that the bandwidth conforms to the typical formula: f b @ k a ext 90 - 9 /(cl i mon ) (hz). where a ext represents the ac gain of an extra loop amplifier, if applied, and k = di monitor /di laser which is determined by the laser/monitor unit. i mon is the average current (pin 17) at typical light emission power of the laser diode. the third part is the power output stage, its input being the integrator output signal. this stage has a separate supply voltage (v ddl ) thereby offering the possibility of reduced power consumption by supplying this pin with the minimum voltage necessary. it also has a laser diode protection circuit which is enabled prior to the output drive transistor becoming saturated due to a large voltage dip on v ddl . saturation will result in a lower current from the laser diode, which is normally followed immediately by an increment of the voltage from the external capacitor cl, which could cause damage to the laser diode at the end of the voltage dip. the protection circuit prevents an increment of the capacitor voltage and thus offers full protection to the laser diode under these circumstances. photo diode signal ?lter and ampli?cation section this section has 6 identical current amplifiers. amplifiers 1 to 4 are designed to amplify the focus photo diode signals. each amplifier has two outputs, an lf output and an internal rf output. amplifiers 5 and 6 are used for the radial photo diode currents and have only an lf output. all 6 output signals are low-pass filtered with a corner frequency at 65 khz. the internal rf output signals are summed together and converted into a voltage by means of a selectable transresistance of 120 k w or 240 k w . this signal is available directly at pin 10, however, there is also an unfiltered signal available at pin 9. the equalization filter used has 2 different filter curves, one for single-speed mode and one for double-speed mode. table 1 operational modes. note 1. where x = dont care. switch pin if not connected default mode (1) gain speed laser high low single double on off control pin hg 1 1 0 x x x x ls 1 x x 1 0 x x ldon 1 x x x x 1 0 tda1302_1 7 wed sep 14 13:30:56 1994 september 1994 7 philips semiconductors preliminary speci?cation data ampli?er and laser supply circuit for cd player and read only optical systems tda1302t limiting values in accordance with the absolute maximum rating system (iec 134). handling classification a: human body model; c = 100 pf; r = 1500 w ; v = 2000 v. charge device model: c = 200 pf; l = 2.5 m h; r = 0 w ; v = 250 v. thermal resistance quality specification in accordance with snw-fq-611 part e . the numbers of the quality specification can be found in the quality reference handbook . the handbook can be ordered using the code 9398 510 63011. characteristics v dd = 3.4 v; v ddl = 2.5 v; t amb = 25 c; r adj = 48 k w ; hg = logic 1; ls = logic 1; with an external lp ?lter (r ext = 750 w , c ext = 47 pf) at pin 9; unless otherwise speci?ed. symbol parameter min. max. unit v dd supply voltage - 8.0 v p tot total power dissipation - 300 mw t stg storage temperature - 65 +150 c t amb operating ambient temperature - 40 +85 c symbol parameter thermal resistance r th j-a from junction to ambient in free air 60 k/w symbol parameter conditions min. typ. max. unit supply i dd ampli?er supply current laser off - 8 - ma v dd ampli?er supply voltage 3.4 - 5.5 v v ddl laser control supply voltage 2.5 - 5.5 v p diss power dissipation laser off; v dd = 3.4 v - 27 - mw diode current ampli?ers (1 to 6) i i(d) diode input current note 1 - - 10 m a n eq equivalent noise input - 1 - pa/ ? hz v i(d) diode input voltage i i(d) = 1.67 m a - 0.9 - v v o(d) diode output voltage - 0.2 - v dd - 1 v g dn ampli?cation i i(d) = 1.67 m a; v o(dn) = 0 v; note 2 1.43 1.55 1.67 db i os(d) diode output offset current i csin = i tsin = 0; note 3 - - 100 na z o(d) output impedance i di = 1.67 m a; v o(dn) = 0 v 500 - - k w b 3 db bandwidth i i(d) = 1.67 m a 50 68 - khz g mm mismatch in ampli?cation i di = 1.67 m a; v o(dn) = v o(dm) - - 3 % tda1302_1 8 wed sep 14 13:30:56 1994 september 1994 8 philips semiconductors preliminary speci?cation data ampli?er and laser supply circuit for cd player and read only optical systems tda1302t data ampli?er; equalized single and double speed v rfo dc output voltage i csin = 0 - 0.3 - v r rf transresistance f i = 100 khz; note 4 100 120 143 k w f i = 100 khz; note 5 200 240 285 k w v rfmo output voltage note 6 - - v dd - 1.2 v sr rf slew rate v sr = 1 v (p-p) - 6 - v/ m s z orf output impedance f i = 1 mhz - 100 - w t d(eq) equalization delay note 7 - 320 - ns t d(f) ?atness delay ( f / w ) ls = 1 or 0; notes 7 and 8 - 10.5 - ns g r gain ratio note 8 4.5 6 - db b rf unequalized output bandwidth i i(d) = 1.67 m a 3 5 - mhz control pins ldon, ls and hg (with 47 k w internal pull-up resistor) v il low level input voltage - 0.2 - +0.5 v v ih high level input voltage v dd - 1 - v dd + 0.2 v i il low level input current - - 100 m a laser output v o(l) output voltage i o(l) = 100 ma - 0.2 - v dd - 0.7 v i o(l) output current - - - 100 ma monitor diode input v i(mon ) monitor input voltage i i(mon) = - 1 ma - v dd - 0.7 - v i i(mon) monitor input current - - 2 ma reference source v gap and laser adjustment current i adj v ref reference voltage r adj = 48 k w 1.15 1.24 1.31 v d t reference temperature drift r adj = 48 k w - 40 10 - 6 - sr ref reference supply rejection - - 1 % i adj adjustment current r adj = 5.6 k w - - 200 m a z i input impedance r adj = 48 k w - 1 - k w d lo(l) /dt slew rate output current c l = 1 nf - 1 - ma/ m s m multiplying factor (i i(mon) /i adj ) - 10 - symbol parameter conditions min. typ. max. unit tda1302_1 9 wed sep 14 13:30:56 1994 september 1994 9 philips semiconductors preliminary speci?cation data ampli?er and laser supply circuit for cd player and read only optical systems tda1302t notes to the characteristics 1. the maximum input current is defined as the current in which the gain reaches its minimum. increasing the supply voltage to v dd = 5 v increases the maximum input current (see also figs 4 and 5). 2. the gain increases if a larger supply voltage is used (see also fig.6). 3. i csin is the sum of the diode input currents 1 to 4; i tsin is the sum of the diode input currents 5 and 6. 4. transresistance 120 k w means low gain, selected if hg = logic 0 (see table 1). 5. transresistance 240 k w means high gain, selected if hg = logic 1 (see table 1). 6. output voltage swing will be: v srrf = v rfmo = v rfo(p-p) . 7. refers to equalized output only. 8. for single speed the gain ratio is defined as gain difference between 1 mhz and 100 khz, while the flatness delay is defined up to 1 mhz (see also fig.7). for double speed the gain ratio is defined as gain difference between 2 mhz and 200 khz, while the flatness delay is defined up to 2 mhz. transfer function the equalized amplifier including c ext and r ext has the following transfer functions, where rfe refers to equalized output only and rf refers to equalized and not equalized outputs. f or single speed (sp = logic 1) (1) f or double speed (sp = logic 0) (2) the denominator forms the denominator of a bessel low-pass filter. table 2 transresistance. symbol description typ. unit k internally de?ned 4 w os / w 1 = w od / w 2 internally de?ned 1.094 q internally de?ned 0.691 w od = 2 w os internally de?ned 17.6 10 - 6 rad/s r rf see chapter characteristics - r ext external resistor 750 w c ext external capacitor 47 pf v rfe i csin --------- - r rf 1 ks 2 C ? ? ? w 2 os 1 1 q s w os s 2 w 2 os + + ------------------------------------------------------------------------ 1 1 s w 1 + ----------------------- 1 1 sr ext c ext + ----------------------------------------- - = v rfe i csin --------- - r rf 1 ks 2 C ? ? ? w 2 os 1 1 q s w od s 2 w 2 od + + ------------------------------------------------------------------------ - 1 1 sr ext c ext + ----------------------------------------- - = tda1302_1 10 wed sep 14 13:30:56 1994 september 1994 10 philips semiconductors preliminary speci?cation data ampli?er and laser supply circuit for cd player and read only optical systems tda1302t v v v fig.4 maximum input current as a function of v dd . - = test limit. bbbb bbbb bbbb bbbb bbb bbb fig.5 output current as a function of input current. ? = test limit. tda1302_1 11 wed sep 14 13:30:56 1994 september 1994 11 philips semiconductors preliminary speci?cation data ampli?er and laser supply circuit for cd player and read only optical systems tda1302t i fig.6 gain as a function of v dd . = test limit. fig.7 transfer for single speed. the dashed line = delay (ns); the solid line = gain (db). tda1302_1 12 wed sep 14 13:30:56 1994 september 1994 12 philips semiconductors preliminary speci?cation data ampli?er and laser supply circuit for cd player and read only optical systems tda1302t internal pin configuration fig.8 equivalent internal pin diagrams. tda1302_1 13 wed sep 14 13:30:56 1994 september 1994 13 philips semiconductors preliminary speci?cation data ampli?er and laser supply circuit for cd player and read only optical systems tda1302t application information the tda 1302t is optimized for philips cdm12 mechanisms and, subsequently, this application is preferred. application with philips cdm12 the cdm12 mechanism uses an n sub-laser diode together with a p sub-monitor diode and, since tda1302t is optimized for this type, besides the standard components cl and r adj , no other external components are required as illustrated in fig.9. as two central spot diodes are summed together inside the pick-up unit, one input pin remains unused as shown in fig.10. unused central spot inputs should be connected to ground in order to eliminate noise contribution to the rf and rfe signals. fig.9 application of the cdm12 laser/monitor diode unit. fig.10 application of the cdm12 pick-up unit. tda1302_1 14 wed sep 14 13:30:56 1994 september 1994 14 philips semiconductors preliminary speci?cation data ampli?er and laser supply circuit for cd player and read only optical systems tda1302t application of other mechanisms the tda1302t can accommodate all laser/monitor configurations with an n sub-laser diode. when an n sub-monitor diode is used, external circuitry is required as illustrated in figs 11(a) to 11(d). most of these laser/monitor diode units have a variable resistor (r m ) in parallel with the monitor diode which has been pre-adjusted so that the voltage drop across this resistor has a specific value at nominal laser diode output power. the four circuits given each detail specific values for some frequently used pick-up units as given in table 3. each circuit has its own advantages. all circuits illustrated make use of the fixed voltage (<200 mv) across the built-in monitor resistor. table 3 pick-up units. pick-up unit manufacturer application sld104u sony corporation ksm210 (sony) lt022ms sharp corporation ksm210 (sony) rld-78ma rohm corporation ksm210 (sony) hop-m3tr (hitachi) sf91 sony corporation cdv90v1 (sanyo) fig.11 applications of the laser/monitor units. tda1302_1 15 wed sep 14 13:30:56 1994 september 1994 15 philips semiconductors preliminary speci?cation data ampli?er and laser supply circuit for cd player and read only optical systems tda1302t p roperties of circuit f ig .11(a) it is important that the v d (d1) approaches v be (t1) at approximately 150 m a, that is why a small diode has been applied such as the ba482. additional adjustment may be necessary. this depends on the matching of v d (d1) and v be (t1) and the permitted tolerance on the laser current. the advised adjustment procedure is as follows: 1. ensure that r adj has the highest impedance at the beginning of the adjustment. 2. adjust r adj until the voltage across r m has the value as indicated in table 4. table 4 variable resistor (r m ) voltage adjustment. table 5 further circuit properties of fig.11. pick-up unit manufacturer v rm (mv) sld104u sony corporation 150 lt022ms sharp corporation 150 rld-78ma rohm corporation 150 sf90 sanyo corporation 180 sf91 sanyo corporation 180 figure properties (a) single supply voltage only a few components are required; 2r, 1t and 1d supply voltage independent (b) single supply voltage only a few components are required; 1r, 2t and 1d supply voltage independent no extra adjustment necessary if t1 and t2 match (c) only a few components are required; 1r and 2t supply voltage independent no extra adjustment necessary better power ef?ciency than (b) (d) single supply voltage supply voltage independent no extra adjustment necessary no matching components required in figs 11(b) to 11(d) solutions have been given requiring no adjustment. r adj and r e can be calculated as follows: r adj = 12.4r e /v rm at p o(nom) . examples of advised values applicable to fig.11(b), (c) and (d) are given in table 6. table 6 advised circuit values. note 1. notwithstanding that the sf91 specification details an astigmatic detection system, tda1301t requires a single foucault parameter setting. figures 12 and 13 give the application diagrams of the pick-up unit of the mechanisms as previously indicated. pick-up unit manufacturer r e ( w ) r adj (k w ) sld104u sony corporation 620 51 lt022ms sharp corporation 620 51 rld-78ma rohm corporation 620 51 sf90 sanyo corporation 750 51 sf91 (1) sanyo corporation 750 51 tda1302_1 16 wed sep 14 13:30:56 1994 september 1994 16 philips semiconductors preliminary speci?cation data ampli?er and laser supply circuit for cd player and read only optical systems tda1302t fig.12 application of pick-up units sld104u, lt022ms and rld-78ma. fig.13 application of pick-up unit sf91. tda1302_1 17 wed sep 14 13:30:56 1994 september 1994 17 philips semiconductors preliminary speci?cation data ampli?er and laser supply circuit for cd player and read only optical systems tda1302t circuit recommendations p rinted - circuit board lay - out items it is advised to keep the output wires of the diode current amplifiers separated from the input as much as possible to prevent oscillations. e xternal monitor diode circuitry tda1302t protects the laser diode against damage due to supply voltage transients. when any external circuitry is used in the laser diode-monitor diode chain, the safety of the laser diode completely relies on the quality of this external circuitry. therefore, it should be noted that: 1. if such a circuit requires a supply voltage, make sure that this voltage is present at least at the same moment as v ddl or earlier. 2. it is advised not to implement integrating actions in this external circuitry as this may conflict with the internal integrator, especially during possible supply voltage drops. m easurement of the laser diode current it is advised not to connect any current meter directly in series with the laser diode. a safe method is the inclusion of a 1 w resistor, connected in series with the laser diode, and measuring the voltage across this resistor. tda1302_1 18 wed sep 14 13:30:56 1994 september 1994 18 philips semiconductors preliminary speci?cation data ampli?er and laser supply circuit for cd player and read only optical systems tda1302t package outline fig.14 plastic small outline package; 24 leads; body width 7.5 mm (so24l; sot137ah). dimensions in mm. handbook, full pagewidth 7.6 7.4 10.65 10.00 a mbc235 - 1 0.3 0.1 2.45 2.25 1.1 0.5 0.32 0.23 1.1 1.0 0 to 8 o 2.65 2.35 detail a s 15.6 15.2 0.1 s 1 12 13 24 pin 1 index 0.9 0.4 (4x) 0.25 m (24x) 0.49 0.36 1.27 tda1302_1 19 wed sep 14 13:30:56 1994 september 1994 19 philips semiconductors preliminary speci?cation data ampli?er and laser supply circuit for cd player and read only optical systems tda1302t soldering plastic small-outline packages b y wave during placement and before soldering, the component must be fixed with a droplet of adhesive. after curing the adhesive, the component can be soldered. the adhesive can be applied by screen printing, pin transfer or syringe dispensing. maximum permissible solder temperature is 260 c, and maximum duration of package immersion in solder bath is 10 s, if allowed to cool to less than 150 c within 6 s. typical dwell time is 4 s at 250 c. a modified wave soldering technique is recommended using two solder waves (dual-wave), in which a turbulent wave with high upward pressure is followed by a smooth laminar wave. using a mildly-activated flux eliminates the need for removal of corrosive residues in most applications. b y solder paste reflow reflow soldering requires the solder paste (a suspension of fine solder particles, flux and binding agent) to be applied to the substrate by screen printing, stencilling or pressure-syringe dispensing before device placement. several techniques exist for reflowing; for example, thermal conduction by heated belt, infrared, and vapour-phase reflow. dwell times vary between 50 and 300 s according to method. typical reflow temperatures range from 215 to 250 c. preheating is necessary to dry the paste and evaporate the binding agent. preheating duration: 45 min at 45 c. r epairing soldered joints ( by hand - held soldering iron or pulse - heated solder tool ) fix the component by first soldering two, diagonally opposite, end pins. apply the heating tool to the flat part of the pin only. contact time must be limited to 10 s at up to 300 c. when using proper tools, all other pins can be soldered in one operation within 2 to 5 s at between 270 and 320 c. (pulse-heated soldering is not recommended for so packages.) for pulse-heated solder tool (resistance) soldering of vso packages, solder is applied to the substrate by dipping or by an extra thick tin/lead plating before package placement. definitions life support applications these products are not designed for use in life support appliances, devices, or systems where malfunction of these products can reasonably be expected to result in personal injury. philips customers using or selling these products for use in such applications do so at their own risk and agree to fully indemnify philips for any damages resulting from such improper use or sale. data sheet status objective speci?cation this data sheet contains target or goal speci?cations for product development. preliminary speci?cation this data sheet contains preliminary data; supplementary data may be published later. product speci?cation this data sheet contains ?nal product speci?cations. limiting values limiting values given are in accordance with the absolute maximum rating system (iec 134). 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 speci?cation is not implied. exposure to limiting values for extended periods may affect device reliability. application information where application information is given, it is advisory and does not form part of the speci?cation. |
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