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 Ordering number: EN 3852D
Monolithic Linear IC
LA2806M Signal Processor and Power Amplifier IC for Telephone Answering Machines
Overview
The LA2806M is a one-chip voice signal processing IC for single-mechanism answering machines that incorporates the basic functions required for an answering machine as well as the microcontroller interface and analog switches that are needed in order to control those basic functions.
Package Dimensions
unit : mm
3073A-MFP30S
[LA2806M]
Functions
. Recording preamplifier (with ALC : LINE/MIC input) . Playback equalizer amplifier . Recording amplifier (DC bias) . Analog switches . Voice-operated switch (VOX) with filter . Power amplifier (P = 200 mW, R = 8 , V = 5 V) . Line output buffer . Microcontroller interface
O L CC
SANYO : MFP30S
Features
. One-chip voice signal processing for single-mechanism . answering machines incorporates all of the basic functions Because the LA2806M . . . .
required for an answering machine and can be controlled by a microcontroller, this IC makes it possible to design an original system Built-in power amplifier Allows conversation recording mode Recording bias and amplifier gain control current can be set separately using external resistors. Small package (MFP30S)
Specifications
Maximum Ratings at Ta = 25C
Parameter Maximum supply voltage Allowable power dissipation Operating temperature Storage temperature Symbol VCC max, P.VCC max Pd max Topr Tstg Conditions Ratings 9 800 -20 to +70 -40 to +150 Unit V mW C C
SANYO Electric Co.,Ltd. Semiconductor Bussiness Headquarters
TOKYO OFFICE Tokyo Bldg., 1-10, 1 Chome, Ueno, Taito-ku, TOKYO, 110 JAPAN
O3097HA (II)/72495HA (ID)/3092HK/D111TS No.3852 - 1/11
LA2806M
Operating Conditions at Ta = 25C
Parameter Recomended supply voltage Operating supply voltage range Recommended load resistance Preamplifier input voltage Symbol VCC, P.VCC VCC op, P.VCC op RL VIN Power amplifier Conditions Ratings 5 4.5 to 7.5 8 0 to 1.0 Unit V V Vp-p
Operating Characteristics at Ta = 25C, VCC = 5 V, f = 1 kHz
Parameter Quiescent current [Preamplifier] Voltage gain Total harmonic distortion ALC turnover input voltage ALC output saturation voltage Equivalent input noise voltage ALC range [Playback equalizer amplifier] Voltage gain Total harmonic distortion Equivalent input noise voltage [Recording amplifier] Voltage gain Output bias voltage Total harmonic distortion [LINE amplifier]: RL = 1 k Voltage gain Maximum output voltage VGR VB THD VGL VO max 50 k impedance connected to pin 1 ZAC, measured between pins 10 and 2 100 k resistance connected to pin 1 ZDC, measured on pin 2 -40 dBV preamplifier input Measured between pins 10 and 22 Measured between pins 10 and 22, THD = 1 % -40 dBV preamplifier input -30 dBV input, measured between pins 20 and 17 THD = 10 % -7.0 0.4 -4.0 0.8 0.5 -1 0.6 0.5 1.0 0 -1.0 1.2 1.0 +1 dB V % dB Vrms % VGE THD VNI -70 dBV input, measured between pins 2 and 8 -60 dBV input, measured between pins 2 and 8 Input short circuited (internal 2.2 k resistance), Flat 57 59 0.5 1.5 61 1.5 5.0 dB % Vrms Symbol ICC VGC THD VALC VOS VNI ALC W Conditions min typ 10 max 15 Unit mA
-70 dBV input, measured between pins 5 and 8 -40 dBV input, measured between pins 5 and 8 Measured between pins 5 and 8 -40 dBV input, measured between pins 5 and 8 Input short circuited (internal 2.2 k resistance) From ALC ON to THD = 1 %
57
59 0.5
61 1.0 -60 625 5.0
dB % dBV mVrms Vrms dB
-68 400
-64 500 1.5
40
45
Total harmonic distortion THD [Power amplifier]: RL = 8 k, input pin 20 Voltage gain Output voltage Total harmonic distortion Input resistance Ripple rejection ratio Output noise voltage [Voice-operated switch] Pin 25, R Sensitivity Output ON voltage [Control pin voltage] Pin 26 to 30 Pin 24 (MUTE) [VREF] Output voltage VGP PO
26 0.2
28 0.25 0.5 15 50 0.1
30
dB W
THD PO = 100 mW ri SVRR Rg = 0, fr = 100 Hz, VCCr = -20 dBV VNO Input short circuited, Flat = 20 k applied 5 V. VOXL -23 dBV input, f = 800 Hz VOXH -27 dBV input, f = 800 Hz V sat 2 V supplied to pin24
10 40
1.0 20 0.5 0.3
% k dB mVrms V V V
4.5
5.0 0.3
VH VL VH VREF
Input high-level voltage Input low-level voltage Input high-level voltage, supplied via diode
1.5 (or VCC + 0.3) 0 1.5
V 0.8 VCC-0.7 2.25 2.45 V V
2.05
V
No. 3852 - 2/11
LA2806M
Allowable power dissipation, Pd max - mW Pd max - Ta
Recommended mounting
Independent IC
Ambient temperature, Ta - C
Equivalent Block Diagram
No. 3852 - 3/11
LA2806M
Test Circuit
Unit (resistance: , capacitance: F)
No. 3852 - 4/11
LA2806M
Mode Selection
REC ON/ OFF x HIGH HIGH HIGH HIGH LOW LOW LOW LOW LOW LOW LOW LOW LOW LINE PWR ON/ ON/ OFF OFF x LOW LOW LOW HIGH HIGH LOW LOW LOW HIGH LOW HIGH LOW HIGH x HIGH LOW LOW HIGH HIGH HIGH LOW HIGH HIGH HIGH LOW HIGH HIGH INPUT MUTE D1 x HIGH HIGH HIGH LOW LOW LOW HIGH HIGH LOW LOW HIGH HIGH HIGH D0 x HIGH HIGH LOW HIGH LOW LOW LOW HIGH HIGH HIGH LOW HIGH HIGH HIGH LOW LOW LOW LOW LOW LOW LOW LOW LOW LOW LOW LOW LOW SW1/ SW2 SW11 SW3 ICM ICM LINE PLAY REC x x x 1 0 1 1 0 1 1 0 0 1 0 1 0 1 0 0 1 0 0 0 0 0 0 1 0 0 1 0 0 1 0 0 0 0 0 1 0 0 1 1 0 1 SW10 SW6 SW7 SW8 SW9 SW4 SW5 PRE/ PRE/ MONI LINE PWR MIC MUTE OGM /OGM EQ x 0 0 1 0 0 0 1 0 0 0 1 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1 1 1 x 1 1 1 0 1 1 1 1 0 0 1 1 1 1 x 1 1 1 1 1 1 1 1 1 1 1 1 0 0 x 0 0 0 1 1 0 0 0 1 0 1 0 1 1 x 1 0 0 1 1 1 0 1 1 1 0 1 1 1 x 0 0 0 0 1 1 0 0 0 0 0 0 0 0
Mode MUTE ICM REC 2WAY REC DICT REC 2WAY BEEP ICM OUT ICM PLAY OGM REC OGM CHANGE OGM OUT OGM PLAY ROOM MONI ROOM OUT VOICE SELE Conversation recording
HIGH HIGH HIGH HIGH HIGH LOW
Notes 2WAY BEEP : LINE OUT -6 dB 1 = ON and 0 = OFF (SW1 to SW5, SW8, SW9 and SW11)
Pin Functions
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 Pin name BIAS/GAIN ICM PB NF GND LINE MIC PRE NF PRE OUT ALC. CT SIG IN OGM/BEEP FIL NF FIL OUT V. REF VCC P.GND PWR OUT P.VCC D.C PWR IN PWR MONI LINE OUT TH VOX. C/MUTE VOX D0 D1 PWR ON/OFF LINE ON/OFF REC ON/OFF Functions Bias. Recording amplifier gain and recording bias current controled by external resistor. Incoming head input/output Playback amplifier feedback. Receives negative feedback input from PRE OUT (pin 8). Preamplifier ground Line input Microphone input Preamplifier feedback. Receives negative feedback input from PRE OUT (pin 8). Preamplifier/playback amplifier output Automatic level control time constant adjust input Preamplifier/playback amplifier output signal input Outgoing message/beep input Filter amplifier negative feedback input Filter amplifier output Internal reference voltage output (Approx. 2.2 V) Preamplifier supply Power amplifier ground Power amplifier output Power amplifier supply Power amplifier reference voltage output (Approx. 4/9 x P.VCC) Power amplifier input Power amplifier monitor output Line amplifier output Voice-operated switch (VOX) threshold adjust input. VOX sensitivity can be adjusted by connecting this signal to the VREF pin (pin 14) via a resistor. Voice-operated switch (VOX) detection and mute control Voice-operated switch (VOX) open-collector output Incoming message, line, microphone and outgoing message/beep analog switch control inputs. Power amplifier ON/OFF analog switch control input Line amplifier ON/OFF analog switch control input Recording amplifier ON/OFF analog switch control input
No. 3852 - 5/11
LA2806M
IC Usage Notes
1) 2) Control Inputs (pin 26 to 30) Each control input is connected to VREF through a 100 k resistance. The control input threshold level is VREF x 3/5. Automatic Level Control (ALC) The automatic level control circuit operates when the input signal is in the range between -64 dBV to -20 dBV. The output saturation level is 500 mV rms. Mute Circuit (pin 24) The VOX. C/MUTE input controls the mute function. When it goes HIGH, analog switch SW5 opens, switching off the power amplifier. The power amplifier output goes high impedance and VOX (pin 25) goes LOW. V/I Conversion V/I conversion is performed in order to extract the recording current for DC bias. The conversion gain and the bias current can be controlled by an external resistor connected to pin 1, and current that is equal to the pin 1 output current is output on pin 2. Playback Amplifier and Preamplifier Feedback Resistance As the playback amplifier and preamplifier employ a zero-bias method, the amplifier's output DC level (VODC) is determined by the feedback resistance (RNF) and the NF pin sink current (Ii = 15 A). VODC = VBE + RNF x Ii VBE 6 0.7 V A feedback resistance of 100 k is recommended for both the playback amplifier and the preamplifier to provide an output DC level with sufficient output dynamic range.
3)
4)
5)
6)
Filter amplifier A bandwidth-limiting filter is provided to restrict the VOX circuit input frequency. It can also be used as an inverting amplifier. It has a center frequency of 800 Hz, a gain of 2 and a Q factor of 1.
Unit (resistance: , capacitance: F) 7) Voice-operated Switch (VOX) This switch detects whether anyone is speaking or not by detecting the level of the signal (V13) on the filter amplifier output pin (pin 13). V13 % -18 dBV ... Pin 25 low The detection level is adjusted by inserting resistor R between TH (pin 23) and VREF (pin 14). Refer to the diagram below.
No. 3852 - 6/11
LA2806M
Sample Applications of Operating Modes
1)
2)
3) 4)
. . 2WAY REC (Two-way recording) .Simultaneously recording conversations. . Recording incoming messages. DICT REC (Dictaphone) . Recording messages using the microphone input (Recording short messages to your family, etc.). 2WAY BEEP (Two-way beep) . The alarm sound is output on the speaker and is recorded as an incoming message. At the same time, it is output on the line . to the calling party. that the incoming is recorded. . Indicates output tone is 6 dBmessagethanbeingoutput level in other modes. The line lower the
ICM OUT (Incoming message output) Playing back incoming messages locally. Playing back incomming messages from a remote location. Transferring incoming messages. Playing back dictaphone recordings.
ICM REC (In coming message recording) Recording incoming messages. Memo recording from a remote location (remote control).
5)
. . . .
6)
ICM PLAY (Incoming message playback) Playing back incoming messages. Playing back dictaphone messages.
7) 8) 9)
. . OGM REC (Outgoing message recording) . Recording outgoing messages. Messages can be transferred under microcomputer control to integrated memory devices.
OGM CHANGE (Remote outgoing message recording) Re-recording outgoing messages from a remote location.
10) 11) 12)
. OGM OUT (Outgoing message output) . Playing back outgoing messages locally. . Playing back outgoing messages from a remote location. OGM PLAY (Outgoing message playback) . Playing back and confirming outgoing messages. ROOM MONI (Remote microphone monitoring) . Monitoring microphone input from a remote location. ROOM OUT (Remote speaker output) . Output messages through the loudspeaker from a remote location. . Conversation REC (Conversation recording) . Simultaneously recording incoming messages and playing back the outgoing message.
13) VOICE SELE (Voice monitoring) Sending output messages, and at the same time monitoring the caller's voice through the loudspeaker. 14)
IC Usage Notes
1) Printed Circuit Board When designing a printed circuit board, the GND line connected to pin 4 should be thick and short. Common impedance may lead to additional distortion. Power Amplifier Polyester film capacitors should be used as the oscillation prevention capacitor betweeen output pin 17 and GND, as they have better temperature and frequency characteristics than electrolytic capacitors. Alminium electrolytic capacitors and ceramic capacitors may cause oscillation at low temperatures. Switching Noise Switching noise can be eliminated by applying a LOW-level pulse greater than 10 ms to PWR ON/OFF pin 28 while the preamplifier is being switched.
2)
3)
No. 3852 - 7/11
LA2806M
4) If the IC is used near the maximum ratings, even a slight variation in conditions may cause the maximum ratings to be exceeded, thereby leading to breakdown. Allow an ample margin of variation for supply voltage etc. and use the IC in the range where the maximum ratings are not exceeded. exceeded. Short Circuits Between Pins The circuit board should be examined for short circuits between pins before initial power-up to prevent damage to the device when voltage is applied. Short-circuit Load Short circuiting the LA2806M output for an extended period while the power is on can damage the device. Playback Amplifier and Preamplifier Feedback Resistance As the playback amplifier and preamplifier employ a zero-bias method, the amplifier's output DC level (VODC) is determined by the feedback resistance (RNF) and the NF pin sink current (Ii = 15 A). VODC = VBE + RNF x Ii VBE 6 0.7 V A feedback resistance of 100 k is recommended for both the playback amplifier and the preamplifier to provide an output DC level with sufficient output dynamic range.
5)
6) 7)
No. 3852 - 8/11
LA2806M
Sample Application Circuit
CPU
No. 3852 - 9/11
LA2806M
ICC - VCC, P.VCC Quiescent current, ICC - mA ALC Characteristic, Distortion Total harmonic distortion, THD - %
Line Input (ICM REC) Input Short Preamplifier Power Amplifier Preamplifer LINE input (ICM REC)
Supply voltage, VCC, P.VCC - V VGO - f
Preamplifier
Output level - mVrms
Input level - dBV VNI - VCC Equivalent input voltage, VNI - Vrms
Voltage gain, VGO - dB
Frequency, f - Hz VGE, THD - f Total harmonic distortion, THD - % Pin 22 output level - mVrms
PB EQ Amplifier ICM PLAY Input -60 dBV VCC = 5 V
Supply voltage, VCC - V Input/Output Characteristic, Distortion Total harmonic distortion, THD - % No. 3852 - 10/11
Line Amp ICM OUT f = 1 kHz RL = 1k Input SIG IN VCC = 5 V
Voltage gain, VGE - dB
Input frequency, f - Hz PO - P.VCC Total harmonic distortion, THD - %
Power Amplifier
Pin 10 input level - dBV THD - PO
Output power, PO - mW
Supply voltage, P.VCC - V
Output power, PO - mW
LA2806M
SVRR - P.VCC Output noise voltage, VNO - Vrms Supply voltage Ripple rejection ratio, SVRR - dB
Power Amplifier
VNO - P.VCC
Power Amplifier
Supply voltage, P.VCC - V OGM Input/Output Characteristic, Distortion Total harmonic distortion, THD - % Filter amp input level - dBV Pin 22 output level - mVrms
Supply voltage, P.VCC - V VOX Sensitivity Characteristic
Pin 11 input level - dBV VREF - VCC Reference voltage, VREF - V
Frequency, f - Hz
Supply voltage, VCC - V 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: 1 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: 2 Not impose any responsibility 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 October, 1997. Specifications and information herein are subject to change without notice. No. 3852 - 11/11


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