ISD1610BXYI01
更新时间:2024-09-18 05:39:59
品牌:WINBOND
描述:Single-Message Single-Chip 6.6- to 40-Second Voice Record & Playback Devices with vAlert Option
概述
规格参数
数据手册ISD1610BXYI01 概述
Single-Message Single-Chip 6.6- to 40-Second Voice Record & Playback Devices with vAlert Option 单消息单芯片6.6-到40秒的语音记录和播放设备与vAlert选项 音频合成器集成电路
ISD1610BXYI01 规格参数
| 是否Rohs认证: | 符合 | 生命周期: | Transferred |
| 零件包装代码: | DIE | 包装说明: | DIE, |
| 针数: | 16 | Reach Compliance Code: | unknown |
| HTS代码: | 8542.39.00.01 | 风险等级: | 5.25 |
| 商用集成电路类型: | SPEECH SYNTHESIZER WITH RCDG | JESD-30 代码: | R-XUUC-N16 |
| 功能数量: | 1 | 端子数量: | 16 |
| 片上内存类型: | FLASH | 最高工作温度: | 85 °C |
| 最低工作温度: | -40 °C | 封装主体材料: | UNSPECIFIED |
| 封装代码: | DIE | 封装形状: | RECTANGULAR |
| 封装形式: | UNCASED CHIP | 峰值回流温度(摄氏度): | NOT SPECIFIED |
| 认证状态: | Not Qualified | 最长读取时间: | 20 s |
| 最大供电电压 (Vsup): | 5.5 V | 最小供电电压 (Vsup): | 2.4 V |
| 表面贴装: | YES | 温度等级: | INDUSTRIAL |
| 端子形式: | NO LEAD | 端子位置: | UPPER |
| 处于峰值回流温度下的最长时间: | NOT SPECIFIED |
ISD1610BXYI01 数据手册
通过下载ISD1610BXYI01数据手册来全面了解它。这个PDF文档包含了所有必要的细节,如产品概述、功能特性、引脚定义、引脚排列图等信息。
PDF下载PRELIMINARY
ISD1600B
Series
Single-Message
Single-Chip
6.6- to 40-Second
Voice Record & Playback Devices
with vAlert Option
Publication Release Date: Jan. 23, 2007
Revision 1.2
ISD1600B SERIES
TABLE OF CONTENTS
1. GENERAL DESCRIPTION.................................................................................................................. 3
2. FEATURES ......................................................................................................................................... 4
3. BLOCK DIAGRAM .............................................................................................................................. 5
4. PIN CONFIGURATION ....................................................................................................................... 6
5. PIN DESCRIPTION............................................................................................................................. 7
6. FUNCTIONAL DESCRIPTION............................................................................................................ 9
6.1. Detailed Description .................................................................................................................... 9
6.1.1 Audio Quality....................................................................................................................... 9
6.1.2 Duration............................................................................................................................... 9
6.1.3 Flash Storage...................................................................................................................... 9
6.1.4 Basic Operation .................................................................................................................. 9
6.1.5 vAlert................................................................................................................................... 9
6.1.6 Automatic Power-Down Mode ............................................................................................ 9
6.2. Functional Description Example................................................................................................ 10
6.2.1. Record a Message........................................................................................................... 10
6.2.2. Edge-trigger Playback...................................................................................................... 10
6.2.3. Level- trigger Playback .................................................................................................... 10
6.2.4. LED Operation ................................................................................................................. 10
6.2.5. ROSC Operation................................................................................................................. 10
7. TIMING DIAGRAMS.......................................................................................................................... 11
8. ABSOLUTE MAXIMUM RATINGS.................................................................................................... 13
8.1 Operating Conditions.................................................................................................................. 14
9. ELECTRICAL CHARACTERISTICS................................................................................................. 15
9.1. DC Parameters.......................................................................................................................... 15
9.2. AC Parameters.......................................................................................................................... 16
10. TYPICAL APPLICATION CIRCUIT................................................................................................. 17
11. PACKAGE DRAWING AND DIMENSIONS.................................................................................... 18
11.1. 16-Lead 150mil Small Outline Integrated Circuit (SOIC) Package......................................... 18
11.2. 16-Lead 300mil Plastic Dual Inline Package (PDIP)............................................................... 19
11.3. Die Physical Layout................................................................................................................. 20
12. ORDERING INFORMATION........................................................................................................... 21
13. VERSION HISTORY ....................................................................................................................... 22
- 2 -
ISD1600B SERIES
1. GENERAL DESCRIPTION
The Winbond® ISD1600B ChipCorder® Series is a high quality, fully integrated, single-chip single-
message voice record and playback device ideally suited to a variety of electronic systems. The
message duration is user selectable in ranges from 6.6 seconds to 40 seconds, depending on the
specific device. The sampling frequency of each device can also be adjusted from 4 kHz to 12 kHz
with an external resistor, giving the user greater flexibility in duration versus recording quality for each
application. Operating voltage spans a range from 2.4 V to 5.5 V to ensure that the ISD1600B devices
are optimized for a wide range of battery or line-powered applications.
The devices include an on-chip oscillator (with external resistor control), microphone preamplifier with
Automatic Gain Control (AGC), anti-aliasing filter, Multi-Level Storage (MLS) array, smoothing filter,
Pulse Width Modulation (PWM) Class D speaker driver, and current output. Voice signals can be fed
into the chip through a differential microphone input for recording. The PWM output can directly drive
a standard 8 Ω speaker or a typical buzzer, while the separate single-ended current output can drive
an external amplifier.
Recordings are stored into the on-chip Flash memory cells, providing zero-power message storage.
This unique single-chip solution is made possible through Winbond’s patented Multi-Level Storage
(MLS) technology. Audio data are stored directly in solid-state memory without digital compression,
providing superior quality voice and music reproduction.
The ISD1600B Series also supports an optional “vAlert” (voiceAlert) feature that can be used as a
new message indicator. With vAlert, the IC strobes an external LED to indicate that a new message is
present.
Publication Release Date: Jan. 23, 2007
- 3 -
Revision 1.2
ISD1600B SERIES
2. FEATURES
• User-friendly single-chip, single-message voice record & playback devices
• Wide operating voltage: 2.4V to 5.5V
• Push-button interface
o
o
Record is level-triggered
Playback is either edge- or level-triggered
• Selectable sampling frequency controlled by an external oscillator resistor
Sampling Frequency
Rosc
12 kHz
8 kHz
6.4 kHz
5.3 kHz
4 kHz
53 kΩ
80 kΩ
100 kΩ
120 kΩ
160 kΩ
• Variable duration selected by external oscillator resistor
Sample Frequency
ISD1610B
12 KHz
6.6 secs
8 secs
8 KHz
10 secs
12 secs
16 secs
20 secs
6.4 KHz
12.5 secs
15 secs
20 secs
25 secs
5.3 KHz
15 secs
18 secs
24 secs
30 secs
4 HKz
20 secs
24 secs
32 secs
40 secs
ISD1612B
ISD1616B
10.6 secs
13.3 secs
ISD1620B
• Message and operation indicators
o
o
Optional vAlert (voiceAlert) to indicate the presence of new messages
LED: stay on during recording, blink during playback operation
• Automatic power-down mode
o
o
Enters standby mode immediately after a record or playback cycle
Standby current: 1µA typical and 10µA maximum
• Dual output channels
o
o
PWM Class D speaker amplifier to directly drive an 8 Ω speaker or a typical buzzer
AUD single-ended current output to drive external power amplifier
• ChipCorder standard features
o
o
o
o
High-quality, natural voice and audio reproduction
Zero-power message storage: Eliminates battery backup circuits
100-year message retention (typical)
100,000 record cycles (typical)
• Package options: Leaded and Lead-free packaged units
• Available in die, 16L 150mil SOIC and 16L 300mil PDIP
• Temperature options:
o
o
Commercial: 0°C to +50°C (Die); 0°C to +70°C (Packaged)
Industrial: -40°C to +85°C (Packaged)
- 4 -
ISD1600B SERIES
3. BLOCK DIAGRAM
Internal
Clock
Timing
ROSC
Sampling Clock
Amp
Amp
AUD
Active
Antialiasing Filter
Analog Transceivers
SP+
SP-
Nonvolatile
Multilevel Storage
Array
Active
Smoothing Filter
MIC+
AGC
Amp
MIC-
Automatic
Gain Control
(AGC)
AGC
Device Control
Power Conditioning
VCCA VSSA
VCCP
VSSD
PLAYL
LED
VCCD
REC
PLAYE
VSSP
Publication Release Date: Jan. 23, 2007
Revision 1.2
- 5 -
ISD1600B SERIES
4. PIN CONFIGURATION
VSSD
REC
16
15
14
13
12
11
10
9
1
2
3
4
5
6
7
8
LED
VCCD
ROSC
AUD
PLAYE
PLAYL
VSSA
ISD1600B
AGC
Sp+
MIC+
VCCA /VCCP
VSSP
MIC-
SP-
SOIC / PDIP
- 6 -
ISD1600B SERIES
5. PIN DESCRIPTION
PIN NAME
SOIC / PDIP
FUNCTIONS
PIN NO.
VSSD
1
Digital Ground: VSSD is the ground for digital circuits. It is
important to have a separate path for each ground back to
the system ground terminal to minimize noise.
2
REC
Record: The device starts recording whenever REC
transits from High to Low and stays at Low. Recording stops
when the signal returns to High. This pin has an internal
pull-up resistor [1] and an internal debounce on falling edge.
3
4
Edge-trigger Playback: A playback operation starts when
this input detects a low going signal exceeding the specified
debounced time. This pin has an internal pull-up resistor [1]
and an internal debounce on both falling & rising edge.
PLAYE
PLAYL
Level-trigger Playback: A playback operation begins when
this input detects a low going signal and remains at Low.
Playback stops when the signal returns to High. This pin has
[1]
an internal pull-up resistor
falling edge.
and an internal debounce on
VSSA
5
6
Analog Ground: VSSA is the ground for analog circuits. It is
important to have a separate path for each ground back to
the system ground terminal to minimize noise.
MIC+
Microphone Positive Input: The input transfers the signal
to the preamplifier. The internal Automatic Gain Control
(AGC) circuit controls the gain of the preamplifier. An
external microphone should be AC coupled to this pin via a
series capacitor. The capacitor value, together with an
internal 10 KΩ resistance on this pin, determines the low-
frequency cutoff for the ISD1600B passband.
MIC-
SP-
7
8
9
Microphone Negative Input: This is the inverting input to
the microphone preamplifier. It provides input noise-
cancellation, or common-mode rejection, when the
microphone is connected differentially to the device.
Speaker Negative : The SP-, Class D PWM output,
provides a differential output with SP+ pin to drive 8ꢀ
speaker or buzzer. During power down or recording, this pin
is tri-stated.
VSSP
PWM Ground: VSSP is the ground for PWM speaker driver.
It is important to have a separate path for each ground back
to the system ground terminal to minimize noise.
Publication Release Date: Jan. 23, 2007
- 7 -
Revision 1.2
ISD1600B SERIES
PIN NAME
SOIC / PDIP
PIN NO.
10
FUNCTIONS
VCCA
Analog power supply: It is important to have a separate
path for each power back to the power terminal to minimize
the noises. Decoupling capacitors to VSSA should be as
close to the device as possible.
VCCP
SP+
10
11
VCCP: Power supply for PWM speaker drivers. It is important
to have a separate path for each power back to the power
terminal to minimize noise. Decoupling capacitors to VSSP
should be as close to the device as possible.
Speaker Positive : The SP+, Class D PWM output, provide
a differential output with SP- pin to drive an 8ꢀ speaker or
buzzer directly. During power down or recording, this pin is
tri-stated.
AGC
12
Automatic Gain Control: The AGC dynamically adjusts the
gain of the preamplifier to compensate the wide range of
microphone input levels. The AGC allows the full range of
signal to be recorded with minimal distortion. Nominal
values of 4.7 µF give satisfactory results in most cases.
Connecting this pin to ground provides maximum gain to the
preamplifier circuitry. Conversely, connecting this pin to
power supply provides minimum gain to the preamplifier
circuitry.
AUD
ROSC
13
14
AUD: The AUD provides a single-ended current output to
drive an external amplifier. During standby or recording, this
pin is tri-stated.
Oscillator Resistor: This enables the user to vary the
record and/or playback duration of the device. A resistor
connected between the ROSC pin and VSSA determines the
sample frequency for the ISD1600B device. Please refer to
the Duration Section in Section 6.1.
VCCD
15
16
Digital power supply: It is important to have a separate
path for each power back to the power terminal to minimize
noise. Decoupling capacitors should be as close to the
device as possible.
LED output: This pin is Low during a record cycle and
blinks during playback cycle. It can be used to drive an LED
to indicate either a record or playback cycle is in progress.
LED
Note: [1] 600kΩ (typical).
- 8 -
ISD1600B SERIES
6. FUNCTIONAL DESCRIPTION
6.1. DETAILED DESCRIPTION
6.1.1 Audio Quality
Winbond’s patented ChipCorder® MLS technology provides natural high quality record and
playback solution on a single chip. The input audio signals are stored directly into the non-
volatile memory and are reproduced in its natural form without any compression artifacts
caused by the digital speech solutions. A complete sample is stored in a single cell,
minimizing the memory needed to store a single message.
6.1.2 Duration
The ISD1600B series offer single-chip solution with record & playback duration from 6.6
seconds to 40 seconds. Sampling frequency and duration are determined by an external
resistor connected to the Rosc pin.
Rosc
53 kΩ
Sampling Frequency
ISD1610B
6.6 secs
10 secs
ISD1612B
8 secs
ISD1616B
10.6 secs
16 secs
20 secs
24 secs
32 secs
ISD1620B
13.3 secs
20 secs
25 secs
30 secs
40 secs
12 KHz
8 KHz
12 secs
15 secs
18 secs
24 secs
80 kΩ
12.5 secs
15 secs
6.4 KHz
5.3 KHz
4 KHz
100 kΩ
120 kΩ
160 kΩ
20 secs
6.1.3 Flash Storage
The ISD1600B product utilizes the on-chip Flash memory providing zero-power message
storage. The message is retained for up to 100 years without power. In addition, the device
can be re-recorded typically over 100,000 times.
6.1.4 Basic Operation
The ISD1600B ChipCorder® device is controlled by either the REC , or one of the two
playback modes, PLAYE and PLAYL . The ISD1600B parts are configured for simple design
in single-message application. Detailed operations are explained in Section 6.2.
6.1.5 vAlert
With vAlert option, after Record, the LED blinks slowly to indicate a new message exists.
Once playback is performed, the LED will not blink again and resume to normal operating
conditions.
6.1.6 Automatic Power-Down Mode
At the end of a playback or record cycle, the ISD1600B device automatically enters into a low-
power mode, consuming typically 1µA, provided that PLAYE , PLAYL and REC are High
(see DC parameters Section). During a playback cycle, the device powers down automatically
Publication Release Date: Jan. 23, 2007
- 9 -
Revision 1.2
ISD1600B SERIES
at the end of the message. During a record cycle, the device powers down immediately after
REC is released to High.
6.2. FUNCTIONAL DESCRIPTION EXAMPLE
The following example operating sequences demonstrate the functionality of the ISD1600B series.
6.2.1. Record a Message
The device starts recording from the beginning of the memory when REC transits from High
to Low and stays at Low. A record cycle is completed when REC is pulled to High or entire
memory is filled up. Then an End-of-Message (EOM) marker is written at the end of message,
enabling a subsequent playback cycle to terminate appropriately. Hence, the device
automatically enters into standby mode.
Record takes precedence over playback operation. If
is pulled Low during a playback
REC
cycle, the playback immediately halts and recording starts from the beginning of the memory.
Holding REC Low after recording will increase standby current consumption.
6.2.2. Edge-trigger Playback
A playback operation starts from the beginning of the memory when PLAYE detects a low
going signal exceeding the specified debounced time. Playback continues until an EOM
marker is encountered. Upon completion of a playback cycle, the device automatically enters
into standby mode.
During playback, a subsequent low going signal will terminate the current playback operation.
Holding this pin Low after playback operation will increase standby current consumption.
6.2.3. Level- trigger Playback
When PLAYL switches from High to Low and stays at Low, a playback starts from the
beginning of the memory until either an EOM marker is reached, then it automatically powers
down.
If PLAYL is pulled High at any time during playback, the playback operation stops
immediately and the device enters into the power-down mode.
6.2.4. LED Operation
The LED is Low during recording, which turns on an LED as a recording indicator. However,
during playback, the LED blinks a few times per second to indicate a playback operation. It
returns to a High when operation stops.
6.2.5. ROSC Operation
The duration can be varied by changing the value of ROSC. This means the designer has the
flexibility to choose different sampling frequency, up to 12 KHz, depending upon the needs.
This feature allows frequency shifting where a recorded audio can be played back faster or
slower than normal for special sound effects.
Another feature is a “Pause” function that can be activated by taking the ROSC resistor to VCC to
stop playback momentarily, and to resume when the resistor is switched back to ground.
- 10 -
ISD1600B SERIES
7. TIMING DIAGRAMS
Tf
Tr
Rec
TRS
TDb1
LED
Mic+
Mic-
FIGURE 1: RECORD OPERATION
Publication Release Date: Jan. 23, 2007
Revision 1.2
- 11 -
ISD1600B SERIES
Even # pulses stops playback
Odd # pulses starts playback
Tf
PlayE
PlayL
TDb2
TDb1
TDb1
Tr
Tcyc
LED
TPS1 or TPS2
TRU
Sp+
Sp-
TPS1 or TPS2
TRU
Aud
Slowly returns to analog ground
to eliminate the "pop" at the end
Ramps up gradually to analog ground
to eliminate the "pop" at the beginning
FIGURE 2: PLAYBACK OPERATION
- 12 -
ISD1600B SERIES
8. ABSOLUTE MAXIMUM RATINGS
ABSOLUTE MAXIMUM RATINGS (DIE)
CONDITIONS [1]
VALUES
Junction temperature
150°C
Storage temperature range
Voltage applied to all pins
-65°C to +150°C
(VSS –0.3V) to (VDD +0.3V)
-0.3V to +7.0V
Power supply voltage to ground potential
ABSOLUTE MAXIMUM RATINGS (PACKAGED PARTS)
CONDITIONS [1]
VALUES
Junction temperature
150°C
Storage temperature range
-65°C to +150°C
(VSS –0.3V) to (VDD +0.3V)
300°C
Voltage applied to all pins
Lead temperature (Soldering – 10 sec)
Power supply voltage to ground potential
-0.3V to +7.0V
[1] Stresses above those listed may cause permanent damage to the device. Exposure to the
absolute maximum ratings may affect device reliability and performance. Functional operation is
not implied at these conditions.
Publication Release Date: Jan. 23, 2007
- 13 -
Revision 1.2
ISD1600B SERIES
8.1 OPERATING CONDITIONS
OPERATING CONDITIONS (DIE)
CONDITIONS
VALUES
0°C to +50°C
+2.4V to +5.5V
0V
Operating temperature range
Supply voltage (VDD) [1]
Ground voltage (VSS) [2]
Input voltage (VDD) [1]
0V to 5.5V
Voltage applied to any pins
(VSS –0.3V) to (VDD +0.3V)
OPERATING CONDITIONS (PACKAGED PARTS)
CONDITIONS
VALUES
Operating temperature range (Case temperature)
-40°C to +85°C
Supply voltage (VDD) [1]
Ground voltage (VSS) [2]
Input voltage (VDD) [1]
+2.4V to +5.5V
0V
0V to 5.5V
Voltage applied to any pins
(VSS –0.3V) to (VDD +0.3V)
[1]
V
= VCCA = VCCD = VCCP
= VSSA = VSSD = VSSP
DD
[2]
V
SS
- 14 -
ISD1600B SERIES
9. ELECTRICAL CHARACTERISTICS
9.1. DC PARAMETERS
PARAMETER
Supply Voltage
SYMBOL
VDD
MIN
2.4
TYP [1]
MAX
5.5
UNITS
V
CONDITIONS
Input Low Voltage
Input High Voltage
Output Low Voltage
Output High Voltage
Record Current
VIL
VSS-0.3
0.7xVDD
VSS-0.3
0.7xVDD
0.3xVDD
VDD
V
VIH
V
VOL
0.3xVDD
VDD
V
IOL = 4.0 mA[2]
IOH = -1.6 mA[2]
VOH
V
VDD = 5.5V, No load,
Sampling freq = 12 kHz
IDD_Record
IDD_Playback
ISB
20
mA
mA
µA
µA
µA
Kꢀ
mV
dB
Playback Current
Standby Current
20
[3] [4]
1
10
[5]
Input Leakage Current
Input Current HIGH
IILPD1
IILPD2
Force VDD
±1
[5]
-3
-10
Force VSS
Preamp Input Resistance RMIC+,RMIC-
20
15
Across both pins
Peak-to-Peak[6]
MIC Input Voltage
VIN
300
40
Gain from MIC to SP+/-
AMSP
6
8
VIN = 15 to 300mV,
AGC = 4.7µF,
VDD = 2.4V to 5.5V
Output Load Impedance
Speaker Output Power
REXT
Pout
ꢀ
Speaker Load
VDD = 5.5V
VDD = 4.4V
VDD= 3V
670
313
117
49
mW
mW
mW
mW
V
15mVp-p
1kHz freq
sinewave,
R
EXT = 8ꢀ;
VDD= 2.4V
REXT = 8ꢀ (Speaker),
typical buzzer
Speaker Output Voltage
AUD
Vout
IAUD
VDD
-3.0
1
mA
%
VDD =4.5V, REXT= 390ꢀ
15mV p-p 1KHz sinewave,
Cmessage weighted
Total Harmonic Distortion THD
[1]
Notes:
Conditions: VCC = 4.5V, 8kHz sampling frequency and TA = 25°C, unless otherwise stated.
LED output during Record operation.
[2]
[3]
VCCA, VCCD and VCCP are connected together. VSSA, VSSP and VSSD are connected together.
[4]
REC , PLAYE and PLAYL must be at VCCD
.
[5]
[6]
REC , PLAYE and PLAYL are forced to specified condition.
Balanced input signal applied between MIC and MIC REF as shown in the applications example. Single-
ended MIC or MIC REF recommended to be less than 100 mV peak to peak.
Publication Release Date: Jan. 23, 2007
- 15 -
Revision 1.2
ISD1600B SERIES
9.2. AC PARAMETERS
CHARACTERISTIC SYMBOL MIN
Sampling Frequency [2] FS
TYP [1]
MAX
UNITS
CONDITIONS
4
12
KHz
Vcc=2.4V~5.5V
Duration [3]
Dur
I1610B I1612B I1616B I1620B
6.6
10
8
10.6
16
13.3
20
Sec
Sec
Sec
Sec
Sec
nsec
nsec
SF=12kHz
SF=8kHz
Vcc=2.4
V~5.5V
12
15
18
24
12.5
15
20
25
SF=6.4kHz
SF=5.3kHz
SF=4kHz
24
30
20
32
40
Rising time
Tr
0
0
100
100
Falling Time
Tf
Debounce Time
(Record & PlayL)
TDb1
26.6
40
26.6
40
26.6
40
26.6
40
msec SF=12kHz
msec SF=8kHz
msec SF=6.4kHz
msec SF=5.3kHz
msec SF=4kHz
msec SF=12kHz
msec SF=8kHz
msec SF=6.4kHz
msec SF=5.3kHz
msec SF=4kHz
Vcc=2.4
V~5.5V
50
50
50
50
60.4
80
60.4
80
60.4
80
60.4
80
Debounce Time (PlayE) TDb2
13.3
20
13.3
20
13.3
20
13.3
20
Vcc=2.4
V~5.5V
25
25
25
25
30.2
40
30.2
40
30.2
40
30.2
40
Signal Ramp Up Time
Record Stop Time
PlayL Stop Time
TRU
TRS
100
msec Vcc=2.4V~5.5V
Vcc=2.4V~5.5V
2 Sample Clock
TDb1
TPS1
TPS2
TCyc
msec Vcc=2.4V~5.5V
msec Vcc=2.4V~5.5V
PlayE Stop Time
2 X TDb1
LED Cycle frequency
1
6
Hz
Playback at any SF
Notes:
[1]
Typical values : VCC = 4.5V, sampling frequency (SF) = 8 kHz and @ TA = 25°C, unless otherwise stated.
[2]
[6]
Sampling Frequency can vary as much as ±2.25 percent over the commercial temperature and voltage
ranges, and –6/+4 percent over the industrial temperature and voltage ranges.
Duration can vary as much as ±2.25 percent over the commercial temperature and voltage ranges, and –
6/+4 percent over the industrial temperature and voltage ranges.
- 16 -
ISD1600B SERIES
10. TYPICAL APPLICATION CIRCUIT
The below example illustrates a typical applications of ISD1600B device.
DI
LED
VCCD
R6
1 K Ω
R7*
16
15
LED
2
3
4
Vcc
***
VCCD
VCCP
Gnd
REC
VCCD
VCCA
C6
VCCA
C9*
μ
0.1
F
F
R1
***
1
VSSD
VCCA
PLAYE
PLAYL
Ω
4.7 K
10
C7
C10*
Optional: based upon the
applications
μ
R2
4.7 K
0.1
VSSA
5
Ω
Speaker
ISD1600B
VCC
10
Electret
Microphone
VCCP
VSSP
6
7
MIC+
MIC -
C8
C2
C3
C11*
μ
0.1
F
μ
0.1 F
9
Q1
8050
C1
μ
0.1
F
μ
4.7
F
13
R4**
C4
R3
4.7 KΩ
AUD
ROSC
AGC
14
12
11
8
R5
390
SP+
SP-
C5
0.1
Speaker
or Buzzer
Ω
F
μ
4.7
F
μ
Schematic shows both speaker and AUD outputs
Notes:
*
These components may be needed in order to optimize for the best voice quality and system performance,
which is also dependent upon the layout of the PCB. Pending upon system requirement, Cx can be 10 μF,
4.7 μF or other values. For R7, 1kΩ gives satisfactory result fro most cases.
** For Sampling Freq at 8 kHz, R4 = 80 KΩ
*** It is important to have a separate path for each ground and power back to related terminal to minimize the
noise. Also, the power supplies should be decoupled as close to the device as possible.
Good Audio Design Practices
Winbond’s ChipCorder are very high-quality single-chip voice recording and playback devices. To
ensure the highest quality voice reproduction, it is important that good audio design practices on
layout and power supply decoupling are followed. See Application Information links below for details.
Design considerations for ISD1600B Series
http://www.winbond-usa.com/products/isd_products/chipcorder/applicationbriefs/AN-CC1001.pdf
Good Audio Design Practices
http://www.winbond-usa.com/products/isd_products/chipcorder/applicationinfo/apin11.pdf
Single-Chip Board Layout Diagrams
http://www.winbond-usa.com/products/isd_products/chipcorder/applicationinfo/apin12.pdf
Publication Release Date: Jan. 23, 2007
- 17 -
Revision 1.2
ISD1600B SERIES
11. PACKAGE DRAWING AND DIMENSIONS
11.1. 16-Lead 150mil Small Outline Integrated Circuit (SOIC) Package
- 18 -
ISD1600B SERIES
11.2. 16-Lead 300mil Plastic Dual Inline Package (PDIP)
Publication Release Date: Jan. 23, 2007
Revision 1.2
- 19 -
ISD1600B SERIES
11.3. Die Physical Layout
ISD1610B / 1612B / 1616B / 1620B
VCCD
ROSC
PLAYL
VSSA
AUD
AGC
MIC+
MIC-
Notes:
1.
The backside of die is internally connected to VSSA. It MUST NOT be connected to any other potential or damage may occur.
2. For package, VCCA and VCCP pads are bonded together to one pin.
- 20 -
ISD1600B SERIES
12. ORDERING INFORMATION
Product Number Descriptor Key
ISD16xxxxxxxx
Product Series:
Special Features Field:
Blank = vAlert disabled
01 = vAlert enabled
Temperature:
Industrial (-40°C to +85°C)
Blank = Commerical
ISD1600 Series
Duration:
10B : 6.6 – 20 secs
I
=
12B : 8 – 24 secs
16B : 10.6 – 30 secs
20B : 13.3 – 40 secs
•
•
Die (0°C to +50°C)
Package (0°C to +70°C)
Package Option:
= Lead-free
Blank = Leaded
Y
Package Type:
X
P
S
=
=
=
Die
Plastic Dual Inline Package (PDIP)
Small Outline Integrated Circuit (SOIC) Package
When ordering, please refer to the following valid part numbers that are supported in volume for this
product series. Contact the local Winbond Sales Representative or Distributor for availability
information.
For the latest product information, access Winbond’s worldwide website at
http://www.winbond-usa.com
Publication Release Date: Jan. 23, 2007
- 21 -
Revision 1.2
ISD1600B SERIES
13. VERSION HISTORY
VERSION
DATE
DESCRIPTION
A1
1
Apr 2005
Jan 2006
Initial version
Change to Preliminary
Update Ordering info with Pb-free option
Update application diagram
1.1
1.2
Apr 2006
Jan 2007
Update Rosc resistor value
Revise automatic power down mode
Update standby current parameter
Revise die physical layout section
- 22 -
ISD1600B SERIES
Winbond products are not designed, intended, authorized or warranted for use as components in systems or equipment
intended for surgical implantation, atomic energy control instruments, airplane or spaceship instruments, transportation
instruments, traffic signal instruments, combustion control instruments, or for other applications intended to support or
sustain life. Furthermore, Winbond products are not intended for applications wherein failure of Winbond products could
result or lead to a situation wherein personal injury, death or severe property or environmental damage could occur.
Winbond customers using or selling these products for use in such applications do so at their own risk and agree to fully
indemnify Winbond for any damages resulting from such improper use or sales.
The contents of this document are provided only as a guide for the applications of Winbond products. Winbond makes no
representation or warranties with respect to the accuracy or completeness of the contents of this publication and
reserves the right to discontinue or make changes to specifications and product descriptions at any time without notice.
No license, whether express or implied, to any intellectual property or other right of Winbond or others is granted by this
publication. Except as set forth in Winbond's Standard Terms and Conditions of Sale, Winbond assumes no liability
whatsoever and disclaims any express or implied warranty of merchantability, fitness for a particular purpose or
infringement of any Intellectual property.
The contents of this document are provided “AS IS”, and Winbond assumes no liability whatsoever and disclaims any
express or implied warranty of merchantability, fitness for a particular purpose or infringement of any Intellectual
property. In no event, shall Winbond be liable for any damages whatsoever (including, without limitation, damages for
loss of profits, business interruption, loss of information) arising out of the use of or inability to use the contents of this
documents, even if Winbond has been advised of the possibility of such damages.
Application examples and alternative uses of any integrated circuit contained in this publication are for illustration only
and Winbond makes no representation or warranty that such applications shall be suitable for the use specified.
The 100-year retention and 100K record cycle projections are based upon accelerated reliability tests, as published in
the Winbond Reliability Report, and are neither warranted nor guaranteed by Winbond. This product incorporates
SuperFlash®.
This datasheet and any future addendum to this datasheet is(are) the complete and controlling ISD® ChipCorder®
product specifications. In the event any inconsistencies exist between the information in this and other product
documentation, or in the event that other product documentation contains information in addition to the information in
this, the information contained herein supersedes and governs such other information in its entirety. This datasheet is
subject to change without notice.
Copyright© 2005, Winbond Electronics Corporation. All rights reserved. ChipCorder® and ISD® are trademarks of
Winbond Electronics Corporation. SuperFlash® is the trademark of Silicon Storage Technology, Inc. All other trademarks
are properties of their respective owners.
Publication Release Date: Jan. 23, 2007
- 23 -
Revision 1.2
ISD1610BXYI01 相关器件
| 型号 | 制造商 | 描述 | 价格 | 文档 |
| ISD1612B | WINBOND | Single-Message Single-Chip 6.6- to 40-Second Voice Record & Playback Devices with vAlert Option | 获取价格 |
|
| ISD1612BP | WINBOND | Single-Message Single-Chip 6.6- to 40-Second Voice Record & Playback Devices with vAlert Option | 获取价格 |
|
| ISD1612BP01 | WINBOND | Single-Message Single-Chip 6.6- to 40-Second Voice Record & Playback Devices with vAlert Option | 获取价格 |
|
| ISD1612BPI | WINBOND | Single-Message Single-Chip 6.6- to 40-Second Voice Record & Playback Devices with vAlert Option | 获取价格 |
|
| ISD1612BPI01 | WINBOND | Single-Message Single-Chip 6.6- to 40-Second Voice Record & Playback Devices with vAlert Option | 获取价格 |
|
| ISD1612BPY | WINBOND | Single-Message Single-Chip 6.6- to 40-Second Voice Record & Playback Devices with vAlert Option | 获取价格 |
|
| ISD1612BPY01 | WINBOND | Single-Message Single-Chip 6.6- to 40-Second Voice Record & Playback Devices with vAlert Option | 获取价格 |
|
| ISD1612BPYI | WINBOND | Single-Message Single-Chip 6.6- to 40-Second Voice Record & Playback Devices with vAlert Option | 获取价格 |
|
| ISD1612BPYI01 | WINBOND | Single-Message Single-Chip 6.6- to 40-Second Voice Record & Playback Devices with vAlert Option | 获取价格 |
|
| ISD1612BS | WINBOND | Single-Message Single-Chip 6.6- to 40-Second Voice Record & Playback Devices with vAlert Option | 获取价格 |
|
ISD1610BXYI01 相关文章
Bourns 密封通孔金属陶瓷微调电位计产品选型手册(英文版)
- 2024-09-20
- 6
Bourns 精密环境传感器产品选型手册(英文版)
- 2024-09-20
- 9
Bourns POWrTher 负温度系数(NTC)热敏电阻手册 (英文版)
- 2024-09-20
- 8
Bourns GMOV 混合过压保护组件产品选型手册(英文版)
- 2024-09-20
- 6
