08.DataBook_1200 Dsht Page 39 Friday, September 27, 1996 10:59 AM (R) ISD1200 Series Single-Chip Voice Record/Playback Devices 10- and 12-Second Durations FEATURES * Easy-to-use single-chip voice Record/ Playback solution * Fully addressable to handle multiple messages * High-quality, natural voice/audio reproduction * 100-year message retention (typical) * 100,000 record cycles (typical) * Push-button interface - Playback can be edge- or levelactivated * On-chip clock source * No algorithm development required * Single +5 volt power supply * Available in die form, DIP, and SOIC packaging * * Single-chip durations of 10 and 12 seconds Automatic power-down mode - Enters standby mode immediately following a Record or Playback cycle - Standby current 0.5 A (typical) * 1 GENERAL DESCRIPTION Information Storage Devices' ISD1200 ChipCorder(R) Series provides high-quality, single-chip Zero-power message storage - Eliminates battery backup circuits ISD1200 SERIES SUMMARY Minimum Duration (Seconds) Input Sample Rate (KHz) Typical Filter Pass Band (KHz) ISD1210 10 6.4 2.6 ISD1212 12 5.3 2.2 Part Number Information Storage Devices, Inc. 1-39 08.DataBook_1200 Dsht Page 40 Friday, September 27, 1996 10:59 AM ISD1200 Series Record/Playback solutions to short-duration messaging applications. The CMOS devices include an on-chip oscillator, microphone preamplifier, automatic gain control, antialiasing filter, smoothing filter, and speaker amplifier. A minimum Record/Playback subsystem can be configured with a microphone, a speaker, several passives, two push-buttons, and a power source. sampling frequenies allowing the user a choice of speech quality options. The input voice signals are stored directly in nonvolatile EEPROM cells, and reproduced without the synthetic effect often heard with digital solid-state speech solutions. A complete sample is stored in a single cell, minimizing the memory necessary to store a recording of a given duration. Recordings are stored in on-chip nonvolatile memory cells, providing zero-power message storage. This unique, single-chip solution is made possible through ISD's patented multilevel storage technology. Voice and audio signals are stored directly into memory in their natural form, providing high-quality, solid-state voice reproduction. Duration To meet end system requirements, the ISD1200 Series offers single-chip solutions at 10 and 12 seconds. EEPROM Storage One of the benefits of ISD's ChipCorder technology is the use of on-chip nonvolatile memory, providing zero-power message storage. The message is retained for up to 100 years typically without power. In addition, the device can be rerecorded typically over 100,000 times. . DETAILED DESCRIPTION Speech/Sound Quality Basic Operation ISD's patented ChipCorder technology provides natural Record and Playback. The ISD1200 Series includes devices offered at 5.3 and 6.4KHz The ISD1200 ChipCorder Series devices are controlled by a single Record signal, REC, and either ISD1200 SERIES BLOCK DIAGRAM XCLK Internal Clock Timing Sampling Clock R 5-Pole Active Antialiasing Filter Amp ANA IN ANA OUT MIC MIC REF AGC 1-40 Analog Transceivers Decoders -1 Product Data Sheets PreAmp 64K Cell Nonvolatile Multilevel Storage Array 5-Pole Active Smoothing Filter SP+ Amp Automatic Gain Control (AGC) Power Conditioning Address Buffers VCCA VSSA VSSD VCCD A0 A1 A2 A3 A4 A5 A6 Device Control A7 REC PLAYE PLAYL RECLED SP- 08.DataBook_1200 Dsht Page 41 Friday, September 27, 1996 10:59 AM ISD1200 Series Product Data Sheets ISD1200 SERIES PINOUTS A0 1 A1 2 A2 3 A3 4 A4 5 A5 6 NC 7 NC 8 A6 9 A7 10 NC 11 VSSD 12 VSSA 13 SP+ 14 ISD1200 Design Manual in this book for ISD1200 address tables. 28 27 26 25 24 23 22 21 20 19 18 17 16 15 VCCD REC XCLK RECLED PLAYE PLAYL NC ANA OUT ANA IN AGC MIC REF MIC VCCA SP- DIP/SOIC Part Number Minimum Duration (Seconds) ISD1210 125 ms ISD1212 150 ms PIN DESCRIPTIONS NOTE The REC signal is debounced for 50 ms on the rising edge to prevent a false retriggering from a push-button switch. NOTE: NC means Must Not Connect. 1 Voltage Inputs (VCCA , VCCD) of two push-button control playback signals, PLAYE (edge-activated Playback), and PLAYL (level-activated Playback). The ISD1200 parts are configured for simplicity of design in a single-message application. Using the address lines will allow multiple message applications. Device operation is explained on page 1-55. Automatic Power-Down Mode At the end of a Playback or Record cycle, the ISD1200 Series devices automatically return to a low-power standby mode, consuming typically 0.5 A. During a Playback cycle, the device powers down automatically at the end of the message. During a Record cycle, the device powers down immediately after REC is released HIGH. Addressing (optional) In addition to providing simple message playback, the ISD1200 Series provides a full addressing capability. The ISD1200 Series storage array has 80 distinct addressable segments, providing the following resolutions. See the ISD Application Notes and Analog and digital circuits internal to the ISD1200 Series use separate power buses to minimize noise on the chip. These power buses are brought out to separate pins on the package and should be tied together as close to the supply as possible. It is important that the power supply be decoupled as close as possible to the package. Ground Inputs (VSSA , VSSD) Similar to VCCA and VCCD, the analog and digital circuits internal to the ISD1200 Series use separate ground buses to minimize noise. These pins should be tied together as close as possible to the device. Record (REC) The REC input is an active-LOW Record signal. The device records whenever REC is LOW. This signal must remain LOW for the duration of the Recording. REC takes precedence over either Playback (PLAYE or PLAYL) signal. If REC is pulled LOW during a Playback cycle, the Playback immediately ceases and Recording begins. A Record cycle is completed when REC is pulled HIGH or the memory space is filled. 1-41 08.DataBook_1200 Dsht Page 42 Friday, September 27, 1996 10:59 AM ISD1200 Series An end-of-message marker (EOM) is internally recorded, enabling a subsequent Playback cycle to terminate appropriately. The device automatically powers down to standby mode when REC goes HIGH. Playback, Edge-Activated (PLAYE) When a LOW-going transition is detected on this input signal, a Playback cycle begins. Playback continues until an end-of-message (EOM) is encountered or the end of the memory space is reached. Upon completion of the Playback cycle, the device automatically powers down into standby mode. Taking PLAYE HIGH during a Playback cycle will not terminate the current cycle. -1 Playback, Level-Activated (PLAYL) When this input signal transitions from HIGH to LOW, a Playback cycle is initiated. Playback continues until PLAYL is pulled HIGH, an EOM marker is detected, or the end of the memory space is reached. The device automatically powers down to standby mode upon completion of the Playback cycle. NOTE In Playback, if either PLAYE or PLAYL is held LOW during EOM or OVERFLOW, the device will still enter standby and the internal oscillator and timing generator will stop. However, the rising edge of PLAYE and PLAYL are not debounced and any subsequent falling edge (particularly switch bounce) present on the input pins will initiate another Playback. Record LED Output (RECLED) The output RECLED is LOW during a Record cycle. It can be used to drive an LED to provide feedback that a Record cycle is in progress. In addition, RECLED pulses LOW momentarily when an end-of-message marker (EOM) is encountered in a Playback cycle. 1-42 Product Data Sheets Microphone Input (MIC) The microphone input transfers its signal to the on-chip preamplifier. An on-chip Automatic Gain Control (AGC) circuit controls the gain of this preamplifier from -15 to 24 dB. An external microphone should be AC coupled to this pin via a series capacitor. The capacitor value, together with the internal 10 K Ohm resistance on this pin, determine the low-frequency cutoff for the ISD1200 Series passband. See the ISD Application Notes and Design Manual in this book for additional information on low-frequency cutoff calculations. Microphone Reference (MIC REF) The MIC REF input is the inverting input to the microphone preamplifier. This provides a noisecanceling or common-mode rejection input to the device when connected differentially to a microphone. Automatic Gain Control (AGC) The AGC dynamically adjusts the gain of the preamplifier to compensate for the wide range of microphone input levels. The AGC allows the full range of sound, from whispers to loud sounds, to be recorded with minimal distortion. The "attack" time is determined by the time constant of a 5 K internal resistance and an external capacitor (C6 on the schematic on page 1-55) connected from the AGC pin to VSSA analog ground. The "release" time is determined by the time constant of an external resistor (R5) and an external capacitor (C6) connected in parallel between the AGC Pin and VSSA analog ground. Nominal values of 470 K and 4.7 F give satisfactory results in most cases. Analog Output (ANA OUT) This pin provides the preamplifier output to the user. The voltage gain of the preamplifier is determined by the voltage level at the AGC pin. 08.DataBook_1200 Dsht Page 43 Friday, September 27, 1996 10:59 AM ISD1200 Series Product Data Sheets Analog Input (ANA IN) The ANA IN pin transfers the input signal to the chip for recording. For microphone inputs, the ANA OUT pin should be connected via an external capacitor to the ANA IN pin. This capacitor value, together with the 3.0 K input impedance of ANA IN, is selected to give additional cutoff at the lowfrequency end of the voice passband. If the desired input is derived from a source other than a microphone, the signal can be fed, capacitively coupled, into the ANA IN pin directly. Nominal values of 470K and u.7F give satisfactory results in most cases. External Clock Input (XCLK) The external clock input for the ISD1200 devices has an internal pull-down device. The ISD1200 is configured at the factory with an internal sampling clock frequency that guarantees its minimum nominal Record/Playback time. For instance, an ISD1210 operating within specification will be observed to always have a minimum of 10 seconds of recording time. The sampling frequency is then maintained to a variation of 2.25% over the commercial temperature and operating voltage ranges while still maintaining the minimum specified recording duration. This will result in some devices having a few percent more than nominal recording time. If greater precision is required, the device can be clocked through the XCLK pin as follows: mended. The duty cycle on the input clock is not critical, as the clock is immediately divided by two internally. IF THE XCLK IS NOT USED, THIS INPUT SHOULD BE CONNECTED TO GROUND. Speaker Outputs (SP+, SP-) The SP+ and SP- pins provide direct drive for loudspeakers with impedances as low as 16 ohms. A single output may be used, but, for direct-drive loudspeakers, the two opposite-polarity outputs provide an improvement in output power of up to four times over a single-ended connection. Furthermore, when SP+ and SP- are used, a speaker-coupling capacitor is not required. A single-ended connection will require an AC-coupling capacitor between the SP pin and the speaker. The speaker outputs are in a highimpedance state during a Record cycle, and held at VSSA during Power Down. Address Inputs (A0-A7) The Address Inputs have two functions, depending upon the level of the two Most Significant Bits (MSB) of the address. If either of the two MSBs is LOW, the inputs are all interpreted as address bits and are used as the start address for the current Record or Playback cycle. The address pins are inputs only and do not output internal address information as the operation progresses. Address inputs are latched by the falling edge of PLAYE, PLAYL,or REC. OPERATIONAL MODES Part Number Sample Rate Required Clock ISD1210 6.4 KHz 819.2 KHz ISD1212 5.3 KHz 682.7 KHz These recommended clock rates should not be varied because the antialiasing and smoothing filters are fixed, and aliasing problems can occur if the sample rate differs from the one recom- The ISD1200 Series is designed with several builtin operational modes provided to allow maximum functionality with a minimum of additional components, described in detail below. The operational modes use the address pins on the ISD1200 devices, but are mapped outside the valid address range. When the two Most Significant Bits (MSBs) are HIGH (A6 and A7), the remaining address signals are interpreted as mode bits and 1-43 1 08.DataBook_1200 Dsht Page 44 Friday, September 27, 1996 10:59 AM ISD1200 Series Product Data Sheets NOT as address bits. Therefore, operational modes and direct addressing are not compatible and cannot be used simultaneously. There are two important considerations for using operational modes. First, all operations begin initially at address 0, which is the beginning of the ISD1200 address space. Later operations can begin at other address locations, depending on the operational mode(s) chosen. In addition, the address pointer is reset to 0 when the device is changed from Record to Playback but not from Playback to Record when A4 is HIGH in Operational Mode. -1 Second, an Operational Mode is executed when any of the control inputs, PLAYE, PLAYL, or REC, go LOW and the two MSBs are HIGH. This Operational Mode remains in effect until the next LOWgoing control input signal, at which point the current address/mode levels are sampled and executed. OPERATIONAL MODES DESCRIPTION The Operational Modes can be used in conjunction with a microcontroller, or they can be hardwired to provide the desired system operation. A0 -- Message Cueing Message Cueing allows the user to skip through messages, without knowing the actual physical addresses of each message. Each control input LOW pulse causes the internal address pointer to skip to the next message. This mode should be used for Playback only, and is typically used with the A4 Operational Mode. A1 -- Delete EOM Markers The A1 Operational Mode allows sequentially recorded messages to be combined into a single message with only one EOM marker set at the end of the final message. When this operational mode is configured, messages recorded sequentially are played back as one continuous message. NOTE The two MSBs are on pins 9 and 10 for each ISD1200 Series device. OPERATIONAL MODES TABLE Address Crtl. (HIGH) Function Typical Use A0 Message cueing Fast-forward through messages A4 A1 Delete EOM markers Position EOM marker at the end of the last message A3, A4 A2 Unused A3 Looping Continuous playback from Address 0 A1 A4 Consecutive addressing Record/Play multiple consecutive messages A0, A1 A5 Unused NOTE: Indicates additional operational modes that can be used simultaneously with the given mode. 1-44 Jointly Compatible* 08.DataBook_1200 Dsht Page 45 Friday, September 27, 1996 10:59 AM ISD1200 Series Product Data Sheets A2 -- Unused A3 -- Message Looping The A3 Operational Mode allows for the automatic, continuously repeated playback of the message located at the beginning of the address space. be recorded or played back consecutively. When the device is in a static state; i.e., not recording or playing back, momentarily taking this pin LOW will reset the address counter to zero. A5 -- Unused A message can completely fill the ISD1200 device and will loop from beginning to end. Pulsing PLAYE will start the Playback and pulsing PLAYL will end the Playback. A4 -- Consecutive Addressing During normal operations, the address pointer will reset when a message is played through to an EOM marker. The A4 Operational Mode inhibits the address pointer reset, allowing messages to 1 1-45 08.DataBook_1200 Dsht Page 46 Friday, September 27, 1996 10:59 AM ISD1200 Series Product Data Sheets TIMING DIAGRAMS Record TREC TREC REC TLED1 TLED2 RECLED TSET THOLD THOLD TSET A0 - A7 MIC/ ANA IN TRPUD TRPDD -1 Playback REC TPLAY PLAYL PLAYE TSET THOLD TSET THOLD TSET THOLD A0 - A7 SP+/TPPUD TPPDD TPPDD TPPUD RECLED T EOM NOTES: 1. REC must be HIGH for the entire duration of a Playback cycle. 2. RECLED functions as an EOM during Playback. 1-46 T EOM 08.DataBook_1200 Dsht Page 47 Friday, September 27, 1996 10:59 AM ISD1200 Series Product Data Sheets OPERATING CONDITIONS (PACKAGED PARTS) ABSOLUTE MAXIMUM RATINGS (PACKAGED PARTS) Condition Value Condition Value 150 C Commercial operating Storage temperature range -65 C to +150 C temperature range(1) Voltage applied to any pin (VSS - 0.3 V) to (VCC + 0.3 V) Junction temperature Voltage applied to any pin (Input current limited to 20 mA) (VSS - 1.0 V) to (VCC + 1.0 V) Lead temperature (soldering - 10 seconds) 300 C VCC - VSS - 0.3 V to + 7.0 V NOTE: 0 C to +70 C Supply voltage (VCC)(2) +4.5 V to +5.5 V Ground voltage (VSS)(3) 0V NOTES: 1. Case temperature. 2. VCC = VCCA = VCCD. 3. VSS = VSSA = VSSD. Stresses above those listed may cause permanent damage to the device. Exposure to the absolute maximum ratings may affect device reliability. Functional operation is not implied at these conditions. 1 DC PARAMETERS (PACKAGED PARTS) Symbol Parameters Min(2) Typ (1) Max(2) Units 0.8 V Conditions VIL Input Low Voltage VIH Input High Voltage VOL Output Low Voltage VOH Output High Voltage ICC VCC Current (Operating) 15 30 mA VCC = 5.5 V (3), REXT = ISB VCC Current (Standby) 0.5 10 A (3) (4) IIL Input Leakage Current 1 A IILPD Input Current HIGH w/Pull Down 130 A Force VCC (5) REXT Output Load Impedance Speaker Load RMIC Preamp In Input Resistance 2.4 V 0.4 2.4 16 10 V IOL = 4.0 mA V IOH = - 1.6 mA K Pins 17, 18 1-47 08.DataBook_1200 Dsht Page 48 Friday, September 27, 1996 10:59 AM ISD1200 Series Product Data Sheets DC PARAMETERS (PACKAGED PARTS) - CONTINUED Symbol -1 Min(2) Parameters Typ (1) Max(2) Units Conditions RANA IN ANA IN Input Resistance 3 K APRE1 Preamp Gain 1 24 dB AGC = 0.0 V APRE2 Preamp Gain 2 - 45 dB AGC = 2.5 V AARP ANA IN to SP+/- Gain 22 dB RAGC AGC Output Resistance 5 K IPREH Preamp Out Source -2 mA @ VOUT = 1.0 V IPREL Preamp In Sink 0.5 mA @ VOUT = 2.0 V - 15 NOTES: 1. Typical values @ TA = 25 C and 5.0 V. 2. All Min/Max limits are guaranteed by ISD via electrical testing or characterization. Not all specifications are 100% tested. 3. VCCA and VCCD connected together. 4. REC, PLAYL, and PLAYE must be at VCCD . 5. Pin 26. AC PARAMETERS (PACKAGED PARTS) Symbol Characteristic FS Sampling Frequency -- ISD1210 -- ISD1212 FCF Filter Pass Band -- ISD1210 -- ISD1212 Min(2) Typ (1) Max(2) Units 6.4 5.3 KHz KHz (5) (5) KHz KHz 3 dB Roll-Off Point (3)(6) 2.6 2.2 TREC Record Duration -- ISD1210 -- ISD1212 10 12 sec sec TPLAY Playback Duration -- ISD1210 -- ISD1212 10 12 sec sec TLED1 RECLED ON Delay TLED2 RECLED OFF Delay TSET Address Setup Time 300 nsec THOLD Address Hold Time 0 nsec TRPUD Record PowerUp Delay -- ISD1210 -- ISD1212 32 39 msec msec TRPDD Record PowerDown Delay -- ISD1210 -- ISD1212 32 39 msec msec 1-48 5 -- ISD1210 -- ISD1212 40 50 48.6 58.3 msec 100 105 msec msec Conditions 3 dB Roll-Off Point (3)(6) (5) (5) 08.DataBook_1200 Dsht Page 49 Friday, September 27, 1996 10:59 AM ISD1200 Series Product Data Sheets AC PARAMETERS (PACKAGED PARTS) - CONTINUED Symbol Characteristic Min(2) Typ (1) Max(2) Units Conditions TPPUD Play PowerUp Delay -- ISD1210 -- ISD1212 32 39 msec msec TPPDD Play PowerDown Delay -- ISD1210 -- ISD1212 8.1 9.7 msec msec TEOM EOM Pulse Width -- ISD1210 -- ISD1212 15.625 18.75 msec msec THD Total Harmonic Distortion 1 % POUT Speaker Output Power 12.2 mW REXT = 16 VOUT Voltage Across Speaker Pins 1.25 2.5 V p-p REXT = 600 VIN1 MIC Input Voltage 20 mV Peak-to-Peak (4) VIN2 ANA IN Input Voltage 50 mV Peak-to-Peak @ 1 KHz 1 NOTES: 1. Typical values @ TA = 25 C, 5.0 V, and 6.4 KHz sample rate. 2. All Min/Max limits are guaranteed by ISD via electrical testing or characterization. Not all specifications are 100% tested. 3. Low-frequency cutoff depends upon value of external capacitors (see Pin Descriptions). 4. With 5.1 K series resistor at ANA IN. 5. Sampling frequency and Playback duration will vary as much as 2.25% over the commercial temperature and voltage ranges. All devices will meet the maximum sampling frequency and minimum Playback duration parameters. For greater stability, an external clock can be utilized (see Pin Descriptions). 6. Filter specification applies to the antialiasing filter and to the smoothing filter. 1-49 08.DataBook_1200 Dsht Page 50 Friday, September 27, 1996 10:59 AM ISD1200 Series Product Data Sheets TYPICAL PARAMETER VARIATION WITH VOLTAGE AND TEMPERATURE (PACKAGED PARTS) STANDBY CURRENT (ISB) RECORD MODE OPERATING CURRENT (ICC) 0.30 12 Standby Current (A) Operating Current (mA) 14 10 8 6 4 0.20 0.15 0.10 2 -1 0.25 0 0 -40 25 70 85 -40 Temperature (C) 25 70 85 Temperature (C) OSCILLATOR STABILITY TOTAL HARMONIC DISTORTION 1.5 0.5 Percent Change (%) Percent Distortion (%) 1.0 0.4 0.3 0.2 0.1 1-50 -0.5 -1.0 -2.0 25 70 Temperature (C) 5.5 Volts 0 -1.5 0 -40 0.5 4.5 Volts 85 -40 25 70 Temperature (C) 85 08.DataBook_1200 Dsht Page 51 Friday, September 27, 1996 10:59 AM ISD1200 Series Product Data Sheets OPERATING CONDITIONS (DIE) ABSOLUTE MAXIMUM RATINGS (DIE) Condition Condition Value Junction temperature 150 C Storage temperature range -65 C to +150 C Voltage applied to any pad (VSS - 0.3 V) to (VCC + 0.3 V) Voltage applied to any pad (VSS - 1.0 V) to (Input current limited to 20 mA) (VCC + 1.0 V) VCC - VSS NOTE: - 0.3 V to + 7.0 V Value Commercial operating temperature range 0 C to +50 C Supply voltage (VCC)(1) +4.5 V to +6.5 V Ground voltage (VSS)(2) 0V NOTES: 1. VCC = VCCA = VCCD. 2. VSS = VSSA = VSSD. Stresses above those listed may cause permanent damage to the device. Exposure to the absolute maximum ratings may affect device reliability. Functional operation is not implied at these conditions. 1 DC PARAMETERS (DIE) Symbol Parameters Min(2) Typ (1) Max(2) Units 0.8 V Conditions VIL Input Low Voltage VIH Input High Voltage VOL Output Low Voltage VOH Output High Voltage ICC VCC Current (Operating) 15 30 mA VCC = 5.5 V (3), REXT = ISB VCC Current (Standby) 0.5 10 A (3) (4) IIL Input Leakage Current 1 A IILPD Input Current HIGH w/Pull Down 130 A Force VCC (5) REXT Output Load Impedance Speaker Load RMIC Preamp In Input Resistance 2.4 V 0.4 2.4 16 10 V IOL = 4.0 mA V IOH = - 1.6 mA K Pins 17, 18 1-51 08.DataBook_1200 Dsht Page 52 Friday, September 27, 1996 10:59 AM ISD1200 Series Product Data Sheets DC PARAMETERS (DIE) - CONTINUED Symbol -1 Min(2) Parameters Typ (1) Max(2) Units Conditions RANA IN ANA IN Input Resistance 3 K APRE1 Preamp Gain 1 24 dB AGC = 0.0 V APRE2 Preamp Gain 2 - 45 dB AGC = 2.5 V AARP ANA IN to SP+/- Gain 22 dB RAGC AGC Output Resistance 5 K IPREH Preamp Out Source -2 mA @ VOUT = 1.0 V IPREL Preamp In Sink 0.5 mA @ VOUT = 2.0 V - 15 NOTES: 1. Typical values @ TA = 25 C and 5.0 V. 2. All Min/Max limits are guaranteed by ISD via electrical testing or characterization. Not all specifications are 100% tested. 3. VCCA and VCCD connected together. 4. REC, PLAYL, and PLAYE must be at VCCD . 5. Pin 26. AC PARAMETERS (DIE) Symbol Characteristic FS Sampling Frequency -- ISD1210 -- ISD1212 FCF Filter Pass Band -- ISD1210 -- ISD1212 Min(2) Typ (1) Max(2) Units 6.4 5.3 KHz KHz (5) (5) KHz KHz 3 dB Roll-Off Point (3)(6) 2.6 2.2 TREC Record Duration -- ISD1210 -- ISD1212 10 12 sec sec TPLAY Playback Duration -- ISD1210 -- ISD1212 10 12 sec sec TLED1 RECLED ON Delay TLED2 RECLED OFF Delay TSET Address Setup Time 300 nsec THOLD Address Hold Time 0 nsec TRPUD Record PowerUp Delay -- ISD1210 -- ISD1212 32 39 msec msec TRPDD Record PowerDown Delay -- ISD1210 -- ISD1212 32 39 msec msec 1-52 5 -- ISD1210 -- ISD1212 40 50 48.6 58.3 msec 100 105 msec msec Conditions 3 dB Roll-Off Point (3)(6) (5) (5) 08.DataBook_1200 Dsht Page 53 Friday, September 27, 1996 10:59 AM ISD1200 Series Product Data Sheets AC PARAMETERS (DIE) - CONTINUED Symbol Characteristic Min(2) Typ (1) Max(2) Units Conditions TPPUD Play PowerUp Delay -- ISD1210 -- ISD1212 32 39 msec msec TPPDD Play PowerDown Delay -- ISD1210 -- ISD1212 8.1 9.7 msec msec TEOM EOM Pulse Width -- ISD1210 -- ISD1212 15.625 18.75 msec msec THD Total Harmonic Distortion 1 % POUT Speaker Output Power 12.2 mW REXT = 16 VOUT Voltage Across Speaker Pins 1.25 2.5 V p-p REXT = 600 VIN1 MIC Input Voltage 20 mV Peak-to-Peak (4) VIN2 ANA IN Input Voltage 50 mV Peak-to-Peak @ 1 KHz 1 NOTES: 1. Typical values @ TA = 25 C, 5.0 V, and 6.4 KHz sample rate. 2. All Min/Max limits are guaranteed by ISD via electrical testing or characterization. Not all specifications are 100% tested. 3. Low-frequency cutoff depends upon value of external capacitors (see Pin Descriptions). 4. With 5.1 K series resistor at ANA IN. 5. Sampling frequency and Playback duration will vary as much as 2.25% over the commercial temperature and voltage ranges. All devices will meet the maximum sampling frequency and minimum Playback duration parameters. For greater stability, an external clock can be utilized (see Pin Descriptions). 6. Filter specification applies to the antialiasing filter and to the smoothing filter. 1-53 08.DataBook_1200 Dsht Page 54 Friday, September 27, 1996 10:59 AM ISD1200 Series Product Data Sheets TYPICAL PARAMETER VARIATION WITH VOLTAGE AND TEMPERATURE (DIE) STANDBY CURRENT (ISB) RECORD MODE OPERATING CURRENT (ICC) 0.35 Standby Current (A) Operating Current (mA) 15 10 5 0.30 0.25 0.20 0.15 0.10 -1 0 0 0 25 50 0 Temperature (C) 25 50 Temperature (C) OSCILLATOR STABILITY TOTAL HARMONIC DISTORTION 2.5 0.5 Percent Change (%) Percent Distortion (%) 2.0 0.4 0.3 0.2 1.5 1.0 0.5 0 -0.5 0.1 -1.0 -1.5 0 0 25 50 Temperature (C) 6.5 Volts 1-54 5.5 Volts 0 25 Temperature (C) 4.5 Volts 50 08.DataBook_1200 Dsht Page 55 Friday, September 27, 1996 10:59 AM ISD1200 Series Product Data Sheets APPLICATION EXAMPLE V CC ISD1200 1 D1 REC LED C7 2 0.001 F 3 S1 4 5 6 PLAYL S2 R6 R7 R8 100 K 100 K 100 K 10 23 PLAYE S3 RECORD 9 24 27 R9 1 K 25 26 A0 A1 A2 A3 A4 A5 A6 A7 PLAYL PLAYE REC RECLED XCLK VCCD VCCA VSSD VSSA SP+ SP- ANA IN ANA OUT 28 C2 16 0.1 F 12 13 16 SPEAKER 14 15 20 21 C3 R2 5.1 K MIC REF MIC AGC R1 1 K 18 17 0.1 F C4 0.1 F C 1 220 F R3 10 K ELECTRET MICROPHONE 19 R5 470 K C6 4.7 F R4 10 K 1 C5 0.1 F FUNCTIONAL DESCRIPTION EXAMPLE sage space, the entire message is played. When the device reaches the EOM marker, it automatically powers down. A subsequent falling edge on PLAYE initiates a new Play cycle from the start address. The following example operating sequence demonstrates the functionality of the ISD1200 Series devices. 1. Record a message filling the address space. 3. Pulling the PLAYL signal LOW initiates a Playback cycle from the beginning of the message space or a selected location. If Recording has filled the message space, the entire message is played. When the device reaches the EOM marker, it automatically powers down. A subsequent falling edge on PLAYL initiates a new Play cycle from the starting address. Pulling the REC signal LOW initiates a Record cycle from the beginning of the message space. If REC is held LOW, the Recording continues until the message space has been filled. Once the message space is filled, Recording ceases. The device will automatically power down after REC is pulled HIGH. 2. Edge-activated playback. Pulling the PLAYE signal LOW initiates a Playback cycle from the beginning of the message space or at a selected location. The rising edge of PLAYE has no effect on operation. If a Recording has filled the mes- Level-activated playback. 4. Level-activated playback (truncated). If PLAYL is pulled HIGH any time during the Playback cycle, the device stops playing and enters the power-down mode. A subsequent falling edge on PLAYL initiates a new Play cycle from the start address. 1-55 08.DataBook_1200 Dsht Page 56 Friday, September 27, 1996 10:59 AM ISD1200 Series 5. 6. Record (interrupting Playback). APPLICATIONS NOTE The REC signal takes precedence over other operations. Any LOW-going transition on REC initiates a new Record operation from the beginning of the start address or at a selected location, regardless of any current operation in progress. Some users may experience an unexpected recording taking place when their circuit is powered up, or the batteries are changed and VCC rises faster than REC. This undesired recording prevents playback of the previously recorded message. A spurious End Of Message (EOM) marker appears at the very beginning of the memory, preventing access to the original message, and nothing is played. Record a message, partially filling the address space. A record operation need not fill the entire message space. Releasing the REC signal HIGH before filling the message space causes the recording to stop and an EOM to be placed. The device powers down automatically. -1 7. Play back a message, partially filling the address space. Pulling the PLAYE or PLAYL signal LOW initiates a Playback cycle which is then completed when the EOM marker is encountered. Playback ceases and the device powers down. 8. RECLED operation. The RECLED output pin provides an activeLOW signal which can be used to drive an LED as a "record-in-progress" indicator. It returns to a HIGH state when the REC pin is released HIGH or when the recording is completed due to the message space being filled. This pin also pulses LOW to indicate an EOM at the end of a message being played. 1-56 Product Data Sheets To prevent this occurrence, place a capacitor (approx. 0.001 F) between the control pin (REC) and VCC. This pulls the control pin voltage up with VCC as it rises. Once the voltage is HIGH, the pullup device will keep the pin HIGH until intentionally pulled LOW, preventing the false EOM marker. Since this anomaly depends on factors such as the capacitance of the user's printed circuit board, not all circuit designs will exhibit the spurious marker. However, it is recommended that the capacitor is included for design reliability. A more detailed explanation and resolution of this occurrence is described in the ISD Application Notes and Design Manual in this book. 08.DataBook_1200 Dsht Page 57 Friday, September 27, 1996 10:59 AM ISD1200 Series Product Data Sheets ORDERING INFORMATION Product Number Descriptor Key ISD12 _ _ _ _ ISD1200 Series Special Temperature Field: Blank = Commercial Packaged (0C to +70C) or Commercial Die (0C to +50C) Duration: 10 = 10 Seconds 12 = 12 Seconds Package Type: G = 28-Lead 0.350-Inch Small Outline Integrated Circuit (SOIC) P = 28- Lead 0.600-Inch Plastic Dual In-Line Package (PDIP) X = Die When ordering ISD1200 Series devices, please refer to the following valid part numbers. Part Number Part Number ISD1210G ISD1212G ISD1210P ISD1212P ISD1210X ISD1212X For the latest product information, access ISD's worldwide website at http://www.isd.com. 1-57 1 08.DataBook_1200 Dsht Page 58 Friday, September 27, 1996 10:59 AM ISD1200 Series -1 1-58 Product Data Sheets