Datasheet ISD1020AX, ISD1020API, ISD1020AP, ISD1020AGI, ISD1020AG Datasheet (ISD)

Single-Chip Voice Record/Playback Devices

FEATURES

• Easy-to-use single-chip voice Record/Play­back solution

• High-quality, natural voice/audio
reproduction

• Manual switch or microcontroller compatible
– Playback can be edge- or level-

activated

• Single-chip durations of 16 and 20 seconds

• Directly cascadable for longer durations

• Power-down mode
–1 µA standby current (typical)

• Zero-power message storage
– Eliminates battery backup circuits

ISD1000A Series

16- and 20-Second Durations

• Fully addressable to handle multiple
messages

• 100-year message retention (typical)

• 100,000 record cycles (typical)

• On-chip clock source

• No algorithm development required

• Single +5 volt supply

• Available in die form, DIP, and SOIC
packaging

• Industrial temperature (-40°C to +85°C)
version available

®

1

ISD1000A SERIES SUMMARY

Part

Number

ISD1016A 16 8 3.4
ISD1020A 20 6.4 2.7

Information Storage Devices, Inc.

Duration

(Seconds)

Input Sample

Rate (KHz)

Typical Filter

Pass Band

(KHz)

1–1

ISD1000A Series

Product Data Sheets

GENERAL DESCRIPTION

Information Storage Devices’ ISD1000A Chip­Corder® Series provides high-quality, single-chip
record/playback solutions for 16- and 20-second
messaging applications. The CMOS devices
include an on-chip oscillator, microphone pream­plifier, automatic gain control, antialiasing filter,
smoothing filter, and speaker amplifier. In addi­tion, the ISD1000A Series is fully microprocessor­compatible, allowing complex messaging and
addressing to be achieved.

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,

-1

providing high-quality, solid-state voice reproduc­tion.

DETAILED DESCRIPTION

The ISD1000A ChipCorder Series devices are
designed to Record and Play back audio and
voice information in a single chip with a minimum
of circuit complexity. This compact, easy-to-use,
nonvolatile, low-power solution has been made
possible by ISD's multilevel storage technology —
a breakthrough in storage technology in EEPROM.
ISD’s multilevel storage technology results in stor­age density that is eight times greater than digital
memory. The ISD1000A nonvolatile analog array
consists of 128K cells — the equivalent of 1 Mbits
of digital storage.

The ISD1000A Series eliminates the need for dig­ital conversion, digital compression, and voice
synthesis techniques which often compromise
voice quality and are more complicated to use.
The ISD1000A Series includes signal conditioning
circuits and control functions which enable a com­plete, high-quality Recording and Playback sys­tem in a single device. The ISD1000A is available
in two versions, which store voice in 16- or 20-sec­ond arrays. Additional devices may be cascaded

ISD1000A SERIES BLOCK DIAGRAM

Internal Clock

XCLK

ANA IN

ANA OUT

MIC REF

AGC

1–2

MIC

Amp

Pre-
Amp

Power Conditioning

V

V

CCA

SSAVSSD

Automatic

Gain Control

5-Pole Active

Antialiasing Filter

(AGC)

V

CCD

A1

A0 A2 A3 A4 A5 A7A6

Address Buffers

Timing

Sampling Clock

Analog T ransceiv ers

Multilevel Storage

Decoders

128 K Cell

Nonvolatile

Array

5-Pole Active

Smoothing Filter

Device Control

PD P/R CE EOM

Mux

AUX IN

Amp

R

SP+
SP–

Product Data Sheets

ISD1000A Series

ISD1000A SERIES PINOUTS

28
27
26
25
24
23
22
21
20
19
18
17
16
15

V

CCD

P/R
XCLK
EOM
PD
CE
NC
ANA OUT
ANA IN
AGC
MIC REF
MIC
V

CCA

SP–

NC
NC

SSD

SSA

A6
A7

1
2
3
4
5
6
7
8
9
10
11
12
13
14

DIP/SOIC

M0/A0
M1/A1
M2/A2
M3/A3
M4/A4
M5/A5

AUX IN

V 
V 

SP+

to achieve longer recording durations. The non­volatile storage array is based on production­proven, low-power CMOS EEPROM technology.

The highly integrated ISD1000A Series contains
all the basic functions required for high-quality
voice Recording and Playback. The noise-cancel­ling Microphone Preamplifier and Automatic Gain
Control (AGC) record both low-volume and high­volume sounds. The AGC attack and release
times are adjusted by an external resistor and
capacitor. Antialiasing is performed by a continu­ous fifth-order Chebyshev filter, requiring no exter­nal components or clocks to give toll-quality
reproduction. The low corner of the passband is
user-settable by two external capacitors. The
devices contain their own temperature-stabilized
timebase oscillator.

The ISD1000A devices drive a speaker directly
through differential outputs. This boosts power by
four times and eliminates the need for a series
capacitor or an output amplifier. The device will
operate from a single power supply or from batter­ies. The device also includes a power down func­tion for applications where minimum power
consumption is critical. The CMOS-based design,
combined with the nonvolatile storage array,

assures the lowest possible overall power con­sumption.

On-chip control functions make the ISD1000A
Series very easy to use in a wide array of applica­tions. Each device offers a variety of operating
modes and interface options. The devices may be
used in applications that require little more than a
few switches and a battery. The devices may also
be integrated into electronic systems where digital
addresses can be provided for more sophisti­cated message addressing and control. The
ISD1000A array is organized into 160 segments.
Addresses A0 through A7 provide access to each
segment in the array for message addressing.
Addressing provides the capability of construct­ing messages by combining stored phrases and
sounds.

PIN DESCRIPTIONS

Voltage Inputs (V

To minimize noise, the analog and digital circuits
in the ISD1000A Series devices use separate
power busses. These voltage busses are brought
out to separate pins and should be tied together
as close to the supply as possible. In addition,
these supplies should be decoupled as close to
the package as possible.

Ground Inputs (V

The ISD1000A Series of devices utilizes separate
analog and digital ground busses. These pins
should be tied together as close to the package
as possible and connected through a low-imped­ance path to power supply ground.

Power Down Input (PD)

When not recording or playing back, the PD pin
should be pulled HIGH to place the part in a very
low power mode (see I
EOM

pulses LOW for an overflow condition, PD
should be brought HIGH to reset the address
pointer back to the beginning of the Record/Play­back space.

CCA

SSA

, V

)

CCD

, V

)

SSD

specification). When

SB

1

1–3

ISD1000A Series

Product Data Sheets

Chip Enable Input (CE

The CE
and Record operations. The address inputs and
Playback/Record input (P/R
falling edge of CE
ISD1000A is unselected, the P/R
auxiliary input is directed into the speaker ampli­fier.

pin is taken LOW to enable all Playback

Playback/Record Input (P/R

The P/R
CE
while a LOW level selects a Record cycle. For a
Record cycle, the address inputs provide the
starting address and recording continues until PD
or CE
(i.e. the chip is full). When a Record cycle is termi­nated by pulling PD or CE

-1

sage (EOM) marker is stored at the current
address in memory. For a Playback cycle, the
address inputs provide the starting address and
the device will play until an EOM marker is
encountered. The device can continue past an
EOM marker in an operational mode, or if CE
held LOW in address mode. (See page 1-6 for
more Operational Modes).

input is latched by the falling edge of the

pin. A HIGH level selects a Playback cycle

is pulled HIGH or an overflow is detected

End-Of-Message Output (EOM

A non-volatile marker is automatically inserted at
the end of each recorded message. It remains
there until the message is recorded over. During
Playback, the EOM
period of T
the event of a message overflow (device full).

In addition, the ISD1000A Series has an internal
VCC detect circuit to maintain message integrity
should V
goes LOW and the device is fixed in Playback­only mode. The EOM marker provides a conve­nient handshake signal for a processor, and also
facilitates the cascading of devices.

EOM

fall below 3.5V. In this case, EOM

CC

)

) are latched by the

. When CE is taken HIGH, the

is HIGH, and the

)

HIGH, an End-Of-Mes-

)

output pulses LOW for a

at the end of each message, or in

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 Kohm resistance on this pin,
determines the low-frequency cutoff for the
ISD1000A Series passband. See ISD’s Applica­tion Notes and Design Manual in this book for
additional information on low-frequency cutoff cal­culation.

Microphone Reference Input (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 to a differential micro­phone.

DISCONNECTED

IF THIS INPUT IS UNUSED, IT MUST BE LEFT

.

Automatic Gain Control Input (AGC)

is

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 whispers to loud sounds to be recorded
with minimal distortion. The “attack” time is deter­mined by the time constant of a 5 KΩ internal
resistance and an external capacitor (C2) con­nected from the AGC pin to V
The “release” time is determined by the time con­stant of an external resistor (R2) and an external
capacitor (C2 on the schematic on page 1-17)
connected in parallel between the AGC Pin and
V

analog ground. Nominal values of 470 K

SSA

and 4.7 µF give satisfactory results, in most cases.
For AGC voltages of 1.5V and below, the pream­plifier is at its maximum gain of 24 dB. Reduction
in preamplifier gain occurs for voltages of approx­imately 1.8V.

analog ground.

SSA

Ω

1–4

Product Data Sheets

ISD1000A Series

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. It has a
maximum gain of about 24 dB for small input sig­nal levels.

Analog Input (ANA IN)

The analog input pin transfers its 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 2.7 KΩ 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.

Optional External Clock Input (XCLK)

ISD1000A devices are configured at the factory
with an internal sampling clock frequency cen­tered to ±1% of specification. The frequency is
maintained to a total variation of ±2.25% toler­ance over the entire commercial temperature and

4.5 to 5.5 voltage ranges. The internal clock has a

±

5% tolerance over the industrial temperature
range and 4.5 to 5.5 voltage range. A regulated
power supply is recommended for industrial-tem­perature-range parts. If greater precision is
required, the device can be clocked through the
XCLK pin as follows.

Part

Number

ISD1016A 8.0 KHz 1024 KHz
ISD1020A 6.4 KHz 819.2 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 recom­mended. The duty cycle on the input clock is not

Sample Rate Required Clock

critical, as the clock is immediately divided by
two.

IF THE XCLK IS NOT USED, THIS INPUT MUST BE

CONNECTED

TO

GROUND

.

Speaker Outputs (SP+/SP-)

All devices in the ISD1000A Series include an on­chip differential speaker driver, capable of driving
50 milliwatts into 16 Ω from AUX IN (12.2 mW from
memory).

The speaker outputs are held at V
record and power down. It is therefore not possi­ble to parallel speaker outputs of multiple
ISD1000A devices or the outputs of other speaker
drivers.

NOTE

levels during

SSA

Connection of speaker outputs in parallel
may cause damage to the device.

While a single output may be used alone (includ­ing a coupling capacitor between the SP pin and
the speaker), these outputs may be used individ­ually with the output signal taken from either pin.
Using the differential outputs results in a 4:1
improvement in output power.

NOTE

Never ground or drive an output.

Auxiliary Input (AUX IN)

The Auxiliary Input is multiplexed through to the
output amplifier and speaker output pins when CE
is HIGH and Playback has ended, or if the device
is in overflow. When cascading multiple ISD1000A
devices, the AUX IN pin is used to connect a Play­back signal from a following device to the
previous output speaker drivers. For noise consid­erations, it is suggested that the Auxiliary Input not
be driven when the storage array is active.

Address/Mode Inputs (Ax/Mx)

The Address/Mode Inputs provide two functions in
the ISD1000A Series: 1. Message address (either

1

1–5

ISD1000A Series

Product Data Sheets

A6 or A7 = LOW) and 2. ISD1000A Series Opera­tional Mode Options (A6 AND A7 = HIGH).

Operational mode options are shown in the Oper­ational Modes table. There are a maximum of 160
message addresses (or segments). Each seg­ment corresponds to one of 160 rows in the ana­log storage array. The message addresses
(segments) are in locations 0 through 159 contig­uous. The playback/record duration of each seg­ment depends upon the device and is as follows:

Part

Number

ISD1016A 100 milliseconds
ISD1020A 125 milliseconds

Segment Playback/Record

Duration

-1

An operation may be started at any address, as
defined by address pins A0-A7. Record or play­back continues with automatic incrementing of the
internal on-chip address until either CE
HIGH (Record), an end of message marker is
encountered (Playback with CE
flow (device full) condition results.

HIGH), or an over-

is brought

OPERATIONAL MODES

The ISD1000A Series is designed with several
built-in 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
ISD1000A devices, but are mapped outside the
valid address range. When the two Most Signifi­cant Bits (MSBs) are HIGH (A6 = A7=1), the
remaining address signals are interpreted as
mode bits and
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
ISD1000A 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, or when a
Power-Down cycle is executed.

Second, an Operational Mode is executed when
CE

goes LOW and the two MSBs are HIGH. This

Operational Mode remains in effect until the next

NOT

as address bits. Therefore,

OPERATIONAL MODES TABLE

Control

Mode

M0 Message cueing Fast-forward through messages M4, M5
M1 Delete EOM markers Position EOM marker at the end of the last

M2 Cascading Adding devices to extend message
M3 Looping Continuous playback from Address 0 M1, M5
M4 Consecutive addressing Record/Play multiple consecutive mes-

M5 CE level-activated Allow message pausing M0, M1, M3, M4

NOTE:

An asterisk (*) indicates additional operational modes which can be used simultaneously with the given mode.

1–6

Function Typical Use Jointly Compatible*

M3, M4, M5

message

M0, M1, M5

sages

Product Data Sheets

ISD1000A Series

LOW-going CE
address/mode levels are sampled and executed.

NOTE

The two MSBs are on pins 9 and 10 for
each ISD1000A Series member.

signal, at which point the current

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.

M0 — Message Cueing

Message Cueing allows the user to skip through
messages, without knowing the actual physical
addresses of each message. Each CE
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
M4 Operational Mode.

M1 — Delete EOM Markers

The M1 Operational Mode allows sequentially
recorded messages to be combined into a single
message with only one EOM marker set at the end
of the combined message. When this operational
mode is configured, messages recorded sequen­tially are played back as one continuous mes­sage.

LOW

M2 — Used for Cascading

During playback, EOM
flow only. Normal EOM pulses are turned off.

goes LOW at array over-

M3 — Message Looping

The M3 Operational Mode allows for the auto­matic, continuously repeated playback of the
message located at the beginning of the address
space. A message
ISD1000A device and loop.

CANNOT

completely fill the

M4 — Consecutive Addressing

During normal operations, the address pointer will
reset when a message is played through to an
EOM marker. The M4 Operational Mode inhibits
the address pointer reset on EOM, allowing mes­sages to be played back consecutively.

M5 — CE

The default mode for ISD1000A devices is for CE
to be edge-activated on Playback and level-acti­vated on Record. The M5 Operational Mode
causes the CE
vated as opposed to edge-activated during Play­back. This is specifically useful for terminating
Playback operations using the CE
mode, CE
beginning of device memory.

Level Activated

pin to be interpreted as level-acti-

signal. In this

LOW begins a Playback cycle at the

1

1–7

ISD1000A Series

TIMING DIAGRAMS

Record

CE



P/R

PD

A0-A7

Mic

MIC

Ana In

ANA IN

SP+/-

-1

Playback

Don't Care

Don't Care

Product Data Sheets

T

CE

T

SET

T

HOLD

T

SET

T

PUD

T

REC

Don't Care

T

PDH

Don't Care

Don't Care

CE



P/R

PD

A0-A7

A0-A9

SP+/–

EOM

Don't Care

Don't Care

T

CE

T

SET

Don't Care

T

HOLD

T

SET

T

PUD

T

PLAY

T

PDH

Don't Care

T

Don't Care

EOM

1–8

Product Data Sheets

ISD1000A Series

ABSOLUTE MAXIMUM RATINGS (PACKAGED PARTS)

Condition Value

Junction temperature 150° C
Storage temperature range –65° C to +150° C
Voltage applied to any pin (VSS – 0.3 V) to

(V

+ 0.3 V)

CC

Voltage applied to any pin (Input
current limited to ± 20 mA)

Lead temperature (soldering –

(V

– 1.0 V) to

SS

(V

CC

300° C

+ 1.0 V)

10 seconds)
V

- V

CC

NOTE:

SS

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.

– 0.3 V to + 7.0 V

DC PARAMETERS (PACKAGED PARTS)

Symbol Parameters

Min

OPERATING CONDITIONS (PACKAGED PARTS)

Condition Value

Commercial operating
temperature range

(1)

Industrial operating
temperature

Supply voltage (V
Ground voltage (V

NOTES: 1.

(1)

CC

SS

Case temperature.

2.

VCC = V

3.

VSS = V

CCA

SSA

(2)

)

(3)

)

= V

= V

0° C to +70° C

–40° C to +85° C

+4.5 V to +5.5 V
0 V

.

CCD

.

SSD

1

(2)

Typ

(1)

Max

(2)

Units Conditions

V

V

V

V

V

I

I

I

R

R

R

CC

SB

IL

IL

IH

OL

OH

OH1

EXT

MIC

AUX

Input Low Voltage 0.8 V VCC = 4.5 V to 5.5 V
Input High Voltage 2.0 V
Output Low Voltage 0.4 V IOL = 4.0 mA
Output High Voltage 2.4 V IOH = – 1.6 mA,

V

= 4.5 V to 5.5 V

CC

Output High Voltage VCC–0.4 V IOH = – 10 µA
VCC Current (Operating) 25 30 mA

VCC Current (Standby) 1 10 µA

R

(3)

EXT

= ∞

(3)

Input Leakage Current ±1 µA
Output Load Impedance 16 Ω Speaker Load
Preamp In Input Resistance 10 KΩ Pins 17, 18
AUX Input Resistance 10 KΩ VCC = 4.5 V to 5.5 V

1–9

ISD1000A Series

DC PARAMETERS (PACKAGED PARTS) – CONTINUED

Product Data Sheets

Symbol Parameters

R

ANA IN

A

PRE1

A

PRE2

A

AUX

A

ARP

R

AGC

I

PREH

I

PREL

ANA IN Input Resistance 3.0 KΩ
Preamp Gain 1 24 dB AGC = 0.0 V,

Preamp Gain 2 – 45 15 dB AGC = 2.5 V
AUX IN/ SP+ Gain 0.9 V/V VCC = 4.5 V to 5.5 V
ANA IN to SP+/- Gain 22 dB
AGC Output Resistance 5 KΩ
Preamp Out Source – 1 mA @ V

Preamp In Sink 0.8 mA @ V

-1

NOTES: 1.

AC PARAMETERS (PACKAGED PARTS)

Symbol Characteristic

F

S

F

CF

T

REC

T

PLAY

T

CE

T

SET

T

HOLD

T

PUD

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.

V

CCA

and V

connected together.

CCD

Internal Clock — ISD1016A
Sampling Frequency — ISD1020A

Filter Pass Band — ISD1016A

Record Duration — ISD1016A

Playback Duration — ISD1016A

CE Pulse Width — ISD1016A

Control/Address Setup Time — ISD1016A

Control/Address Hold Time — ISD1016A

Power-Up Delay — ISD1016A

(2)

Min

Min

— ISD1020A

— ISD1020A

— ISD1020A

100

— ISD1020A

100
300

— ISD1020A

300

— ISD1020A00

18.75

— ISD1020A

31.25

Typ

(2)

(1)

Max

(2)

Units Conditions

VCC = 4.5 V to 5.5 V

= 1.0 V,

OUT

V

= 4.5 V to 5.5 V

CC

= 2.0 V,

OUT

V

= 4.5 V to 5.5 V

CC

Typ

6.4

3.4

2.7

16
20

16
20

(1)

8

Max

(2)

Units Conditions

KHz
KHz

KHz
KHz

(9)
(9)

3 dB Roll-Off Point
3 dB Roll-Off Point

sec
sec

(9)

sec

(9)

sec

(3)(10)
(3)(10)

nsec
nsec

nsec
nsec

nsec
nsec

msec
msec

1–10

Product Data Sheets

AC PARAMETERS (PACKAGED PARTS) – CONTINUED

ISD1000A Series

Symbol Characteristic

T

PDR

PD Pulse Width - Record — ISD1016A

— ISD1020A

T

PDP

PD Pulse Width - Play — ISD1016A

— ISD1020A

T

PDS

PD Pulse Width - Static — ISD1016A

— ISD1020A

T

PDH

Power Down Hold — ISD1016A

— ISD1020A00

T

EOM

EOM Pulse Width — ISD1016A

— ISD1020A

THD Total Harmonic Distortion — ISD1016A

— ISD1020A

P

OUT

Speaker Output Power — ISD1016A

— ISD1020A

V

OUT

Voltage Across Speaker Pins — ISD1016A

— ISD1020A

V

IN1

MIC Input Voltage — ISD1016A

— ISD1020A

V

IN2

ANA IN Input Voltage — ISD1016A

— ISD1020A

V

IN3

AUX IN Input Voltage — ISD1016A

— ISD1020A

Min

(2)

(1)

Typ

25

31.25

12.5

15.625
100

100

Max

(2)

Units Conditions

msec
msec

msec
msec

nsec
nsec

(6)
(6)

(7)
(7)

(8)
(8)

nsec
nsec

12.5

15.6
1

1

12.5

12.5

2.5

2.5

1.25

1.25

50
50

20
20

50
50

msec
msec

%%@ 1 KHz

@ 1 KHz
mW
mW

V p–p
V p–p

mV
mV

= 16 Ω

R

EXT

R

= 16 Ω

EXT

R

= 600 Ω

EXT

R

= 600 Ω

EXT

Peak-to-Peak

Peak-to-Peak

mVmVPeak-to-Peak

Peak-to-Peak

V p–p
V p–p

R

R

EXT
EXT

= 16 Ω
= 16 Ω

(4)
(4)

(5)
(5)

1

NOTES: 1.

2.

3.

4.

5.

6.

7.

8.

9.

10.

Typical values @ TA = 25° C and 5.0 V.

All Min/Max limits are guaranteed by ISD via electrical testing or characterization. Not all specifications are 100% tested.

Low-frequency cutoff depends upon value of external capacitors (see Pin Descriptions).
From AUX IN; if ANA IN is driven at 50 mV p-p, the POUT= 12.2 mW, typical.
With 5.1 KΩ series resistor at ANA IN.
This is the minimum pulse width required to guarantee that a Record cycle will be interrupted. A LOW-going PD pulse

of less than this interval during Record may be ignored.

This is the minimum pulse width required to guarantee that a Playback cycle will be interrupted. A LOW-going PD pulse

of less than this interval during Playback may be ignored.
This is the minimum pulse width required to reset the device when in a static condition; i.e., not actively recording or

playing back.

Sampling Frequency and Playback Duration will vary as much as ±2.25% over the commercial temperature and voltage

range and
(see Pin Descriptions).

Filter specification applies to the antialiasing filter and to the smoothing filter.

±

5% over the industrial temperature and voltage range. For greater stability, an external clock can be utilized

1–11

ISD1000A Series

TYPICAL PARAMETER VARIATION WITH VOLTAGE AND TEMPERATURE
(PACKAGED PARTS)

Product Data Sheets

-1

RECORD MODE OPERATING CURRENT (ICC)

25

20

15

10

Operating Current (mA)

5

0

-40

TOTAL HARMONIC DISTORTION

0.6

0.5

25 70 85

Temperature (C)

STANDBY CURRENT (ISB)

0.7

0.6

0.5

0.4

0.3

0.2

Standby Current (µA)

0.1

0

-40 25 70 85

Temperature (C)

OSCILLATOR STABILITY

1.5

1.0

Percent Distortion (%)

1–12

0.4

0.3

0.2

0.1

0

-40

5.5 Volts

25 70 85

Temperature (C)

4.5 Volts

0.5

-0.5

Percent Change (%)

-1.0

-1.5

0

-40

25 70 85

Temperature (C)

Product Data Sheets

ISD1000A Series

ABSOLUTE MAXIMUM RATINGS (DIE)

Condition Value

Junction temperature 150° C
Storage temperature range –65° C to +150° C
Voltage applied to any pad (VSS – 0.3 V) to

(V

+ 0.3 V)

CC

Voltage applied to any pad
(Input current limited to ±20 mA)

V

- V

CC

SS

NOTE:

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.

(V

– 1.0 V) to

SS

(V

+ 1.0 V)

CC

– 0.3 V to + 7.0 V

DC PARAMETERS (DIE)

Symbol Parameters

Min

OPERATING CONDITIONS (DIE)

Condition Value

Commercial operating
temperature range

Supply voltage (V
Ground voltage (V

NOTES: 1.

2.

3.

CC

SS

Case temperature.
VCC = V
VSS = V

(1)

CCA

SSA

(2)

)

(3)

)

= V

= V

CCD

SSD

.

.

0° C to +50° C

+4.5 V to +6.5 V
0 V

1

(2)

Typ

(1)

Max

(2)

Units Conditions

V

IL

V

IH

V

OL

V

OH

V

OH1

I

CC

I

SB

I

IL

R

EXT

R

MIC

R

AUX

R

ANA IN

Input Low Voltage 0.8 V VCC = 4.5 V to 5.5 V
Input High Voltage 2.0 V
Output Low Voltage 0.4 V IOL = 4.0 mA
Output High Voltage 2.4 V IOH = –1.6 mA,

V

= 4.5 V to 5.5 V

CC

Output High Voltage VCC–0.4 V IOH = – 10 µA

= ∞

(3)

VCC Current (Operating) 25 30 mA
VCC Current (Standby) 1 10 µA

R

EXT

(3)

Input Leakage Current ±1 µA
Output Load Impedance 16 Ω Speaker Load
Preamp In Input Resistance 10 KΩ Pins 17, 18
AUX Input Resistance 10 KΩ VCC = 4.5 V to 5.5 V
ANA IN Input Resistance 3.0 KΩ

1–13

ISD1000A Series

DC PARAMETERS (DIE) – CONTINUED

Product Data Sheets

Symbol Parameters

-1

A

PRE1

A

PRE2

A

AUX

A

ARP

R

AGC

I

PREH

I

PREL

NOTES: 1.

Preamp Gain 1 24 dB AGC = 0.0 V,

Preamp Gain 2 – 45 15 dB AGC = 2.5 V
AUX IN/ SP+ Gain 0.9 V/V VCC = 4.5 V to 5.5 V
ANA IN to SP+/- Gain 22 dB
AGC Output Resistance 5 KΩ
Preamp Out Source – 1 mA @ V

Preamp In Sink 0.8 mA @ V

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.

V

CCA

and V

connected together.

CCD

AC PARAMETERS (DIE)

Symbol Characteristic

F

S

F

CF

T

REC

T

PLAY

T

CE

T

SET

T

HOLD

T

PUD

T

PDR

Internal Clock — ISD1016A
Sampling Frequency — ISD1020A

Filter Pass Band — ISD1016A

Record Duration — ISD1016A

Playback Duration — ISD1016A

CE Pulse Width — ISD1016A

Control/Address Setup Time — ISD1016A

Control/Address Hold Time — ISD1016A

Power-Up Delay — ISD1016A

PD Pulse Width - Record — ISD1016A

(2)

Min

Min

— ISD1020A

— ISD1020A

— ISD1020A

100

— ISD1020A

100
300

— ISD1020A

300

— ISD1020A00

18.75

— ISD1020A

31.25

— ISD1020A

Typ

(2)

(1)

Typ

8

6.4

3.4

2.7

16
20

16
20

25

31.25

Max

(1)

(2)

Units Conditions

V

CC

V

CC

V

CC

(2)

Max

Units Conditions

KHz
KHz

KHz
KHz

sec
sec

sec
sec

nsec
nsec

nsec
nsec

nsec
nsec

msec
msec

msec
msec

= 4.5 V to 5.5 V

= 1.0 V,

OUT

= 4.5 V to 5.5 V

= 2.0 V,

OUT

= 4.5 V to 5.5 V

(9)
(9)

3 dB Roll-Off Point
3 dB Roll-Off Point

(9)
(9)

(6)
(6)

(3)(10)
(3)(10)

1–14

Product Data Sheets

AC PARAMETERS (DIE) – CONTINUED

ISD1000A Series

Symbol Characteristic

T

PDP

PD Pulse Width - Play — ISD1016A

— ISD1020A

T

PDS

PD Pulse Width - Static — ISD1016A

— ISD1020A

T

PDH

Power Down Hold — ISD1016A

— ISD1020A00

T

EOM

EOM Pulse Width — ISD1016A

— ISD1020A

THD Total Harmonic Distortion — ISD1016A

— ISD1020A

P

OUT

Speaker Output Power — ISD1016A

— ISD1020A

V

OUT

Voltage Across Speaker Pins — ISD1016A

— ISD1020A

V

IN1

MIC Input Voltage — ISD1016A

— ISD1020A

V

IN2

ANA IN Input Voltage — ISD1016A

— ISD1020A

V

IN3

AUX IN Input Voltage — ISD1016A

— ISD1020A

Min

(2)

(1)

Typ

12.5

15.625
100

100

Max

(2)

Units Conditions

msec
msec

nsec
nsec

(7)
(7)

(8)
(8)

nsec
nsec

12.5

15.6
1

1

12.5

12.5

2.5

2.5

1.25

1.25

50
50

20
20

50
50

msec
msec

%%@ 1 KHz

@ 1 KHz
mW
mW

V p–p
V p–p

mV
mV

= 16 Ω

R

EXT

R

= 16 Ω

EXT

R

= 600 Ω

EXT

R

= 600 Ω

EXT

Peak-to-Peak

Peak-to-Peak

mVmVPeak-to-Peak

Peak-to-Peak

V p–p
V p–p

R

R

EXT
EXT

= 16 Ω
= 16 Ω

(4)
(4)

1

(5)
(5)

NOTES: 1.

2.

3.

4.

5.

6.

7.

8.

9.

10.

Typical values @ TA = 25° C and 5.0 V.
All Min/Max limits are guaranteed by ISD via electrical testing or characterization.
Not all specifications are 100% tested.
Low-frequency cutoff depends upon value of external capacitors (see Pin Descriptions).
From AUX IN; if ANA IN is driven at 50 mV p-p, the POUT= 12.2 mW, typical.
With 5.1 KΩ series resistor at ANA IN.

This is the minimum pulse width required to guarantee that a Record cycle will be interrupted. A LOW-going PD pulse

of less than this interval during Record may be ignored.

This is the minimum pulse width required to guarantee that a Playback cycle will be interrupted. A LOW-going PD pulse

of less than this interval during Playback may be ignored.
This is the minimum pulse width required to reset the device when in a static condition; i.e., not actively recording or

playing back.

Sampling frequency and Playback duration will vary as much as ±2.25% over the commercial temperature and voltage

range. For greater stability, an external clock can be utilized (see Pin Descriptions).
Filter specification applies to the antialiasing filter and to the smoothing filter.

1–15

ISD1000A Series

Product Data Sheets

TYPICAL PARAMETER VARIATION WITH VOLTAGE AND TEMPERATURE (DIE)

-1

RECORD MODE OPERATING CURRENT (ICC)

25

20

15

10

Operating Current (mA)

5

0

02550

Temperature (C)

TOTAL HARMONIC DISTORTION

0.5

0.4

STANDBY CURRENT (ISB)

0.8

0.7

0.6

0.5

0.4

0.3

Standby Current (µA)

0.2

0.1
0

02550

Temperature (C)

OSCILLATOR STABILITY

2.5

2.0

1.5

0.3

0.2

Percent Distortion (%)

0.1

0

02550

6.5 Volts 5.5 Volts

1–16

Temperature (C)

4.5 Volts

1.0

0.5
0

Percent Change (%)

-0.5

-1.0

-1.5
02550

Temperature (C)

Product Data Sheets

APPLICATION EXAMPLE – DESIGN SCHEMATIC

V

NOTE:

CC

CHIP ENABLE

POWER DOWN

PLAYBACK/RECORD

V

If desired, pin 18 may be left unconnected
(microphone preamplifier noise will be higher). In this
case, pin 18 must not be tied to any other signal or
voltage.
Additional design example schematics are provided in
the Application Notes and Design Manual in this book.

1

SS

2
3
4
5
6
9

10


23
24
27
25


26

ISD1016A/1020A

A0
A1
A2
A3
A4
A5
A6
A7

CE
PD
P/R
EOM

XCLK

ANA OUT

V 

CCD

V 

CCA

V 

SSD

V 

SSA

SP+
SP–

AUX IN

ANA IN

MIC REF

MIC

AGC

470 KΩ

ISD1000A Series

V

28
16


C6



0.1 µF

12
13




14
15
11
20

R5





5.1 KΩ

21




(Note)

18
17
19



R

2

1 KΩ

C

2

4.7 µF

R

CC

SPEAKER

C

3

C

1

0.1 µF

R

3

ELECTRET

MICROPHONE

C8

22 µF

16 Ω

C

5

0.1 µF

Mic Ref

R

4

10 KΩ

1

C7

0.1 µF

0.1 µF

V

CC

1

10 KΩ

C

4

220 µF

APPLICATION EXAMPLE – BASIC DEVICE CONTROL

Control Step Function Action

1 Power up chip and select record/playback mode 1. PD = LOW

2. P/R = As desired
2 Set message address for record/playback Set addresses A0–A7
3 Begin playback/record CE = Pulsed LOW (Playback)

CE = Held LOW (Record)

4 End cycle CE = HIGH and EOM reached

1–17

ISD1000A Series

APPLICATION EXAMPLE – PASSIVE COMPONENT FUNCTIONS

Part Function Comments

Product Data Sheets

R1 Microphone power supply

decoupling
R2 Release time constant Sets release time for AGC
R3, R4 Microphone biasing resistors Provides biasing for microphone operation
R5 Series limiting resistor Reduces level at high supply voltages
C1, C5 Microphone DC–blocking capacitor

Low-frequency cutoff

C2 Attack/Release time constant Sets attack/release time for AGC
C3 Low-frequency cutoff capacitor Provides additional pole for low-frequency cutoff
C4 Microphone power supply

-1

C6, C7, C8 Power supply capacitors Filter and bypass of power supply

decoupling

Reduces power supply noise

Decouples microphone bias from chip. Provides
single-pole low-frequency cutoff and common-mode
noise rejection

Reduces power supply noise

1–18

Product Data Sheets

ORDERING INFORMATION

Product Number Descriptor Key

ISD10 _ _ A _ _

ISD1000A Series

ISD1000A Series
Duration:

16 = 16 Seconds
20 = 20 Seconds

Special Temperature Field:

Blank = Commercial Packaged (0˚C to +70˚C)

or Commercial Die (0˚C to +50˚C)

I = Industrial (-40˚C to +85˚C)

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 ISD1000A Series devices, please refer to the following valid part numbers.

Part Number Part Number

ISD1016AG ISD1020AG
ISD1016AGI ISD1020AGI
ISD1016AP ISD1020AP
ISD1016API ISD1020API
ISD1016AX ISD1020AX

1

For the latest product information, access ISD’s worldwide website at http://www.isd.com.

1–19

ISD1000A Series

-1

Product Data Sheets

1–20