SIPEX SP8531KN

SP8531
SIGNAL PROCESSING EXCELLENCE
12-Bit Sampling Serial Out Analog
to Digital Converter
■
■
■
■
■
■
■
12 Bit Resolution
Single +5Volt Supply
Internal Reference, 1.25V
Unipolar 0 to +2.5 Volt Input Range
Fast, 3.75 µs Conversion Time
Fast Power Shutdown/Turn-On Mode
3-Wire Synchronous Serial High Speed
Interface
■ 2µA Shutdown Mode (10µW)
■ Low Power CMOS 60mW typical
DESCRIPTION
The SP8531 is a sampling 12-Bit serial out analog to digital converter. The device contains a high
speed 12-Bit analog to digital converter, internal reference, and sample/hold circuitry. The
SP8531 is available in 16-pin PDIP and SOIC packages, specified over Commercial and
Industrial temperature ranges.
CS
CONTROL
LOGIC
STATUS
COUNTER
BUFFER
SCLK
SAR
VIN
CDAC
OFFSET
ADJUST
DOUT
LATCHED
COMPARATOR
RTRIM
BUFFER
SHUTDOWN
REF.
GAIN
ADJUST
REF OUT
SP8531DS/01
SP8531 12-Bit Sampling Serial Out Analog to Digital Converter
1
© Copyright 1999 Sipex Corporation
ABSOLUTE MAXIMUM RATINGS
(TA=+25˚C unless otherwise noted) ..............................................
VDD to DGND ............................................................. -0.3V to +7V
VDA to AGND .............................................................. -0.3V to +7V
Vin to AGND .................................................... -0.3V to VDA +0.3V
Digital Input to VSS ........................................... -0.3V to VDD+0.3V
Digital Output to VSS ........................................ -0.3V to VDD+0.3V
Operating Temp. Range
Commercial (J,K Version) ............................... 0˚C to 70˚C
Industrial (A,B Version) .............................. -40˚C to +85˚C
Storage Temperature ............................................... -65˚C to 150˚C
Lead Temperature(Solder 10 sec) ....................................... +300˚C
Power Dissipation to +70˚C ................................................ 500mW
Derate Above 70˚C ......................................................... 10mW/ ˚C
SPECIFICATIONS
Unless otherwise noted the following specifications apply for VDD = 5V with limits applicable for TA = 25˚C.
PARAMETER
DC Accuracy
Resolution
Integral Linearity
J, A
K ,B
MIN.
TYP.
MAX.
12
UNIT
CONDITIONS
Bits
+0.6
+0.4
+1.0
+0.75
LSB
LSB
Differential Linearity Error
J, A
K ,B
+0.5
+0.5
+1.0
+1.0
LSB
LSB
Gain Error
J, A
K,B
+0.2
+0.1
+1.0
+0.5
%FSR
%FSR
Externally Trimmable to Zero
Externally Trimmable to Zero
Offset Error
J, A
K,B
+4
+3
+7
+5
LSB
LSB
Externally Trimmable to Zero
Externally Trimmable to Zero
Analog Input
Input Impedance
Conversion Speed
Sample Time
Conversion Time
Complete Cycle
Conversion
Rate:
Clock Speed
SP8531DS/01
0 to 2.5
600K
Volts
Ohms
400
3.75
4.25
No Missing Codes
No Missing Codes
4 MHz Clock Rate
ns
µs
µs
235
4
KHz
MHz
SP8531 12-Bit Sampling Serial Out Analog to Digital Converter
2
© Copyright 1999 Sipex Corporation
SPECIFICATIONS (continued)
Unless otherwise noted the following specifications apply for VDD = 5V with limits applicable for TA = 25˚C.
PARAMETER
Reference Output
Ref. Out Temp. Coef.
J, A
K,B
MIN.
TYP.
1.25
30
20
Ref.Out Error
Output Current
+4
1
Digital Inputs
Input Low Voltage , VIL
Input High Voltage , VIH
MAX.
UNIT
Volts
CONDITIONS
ppm/˚C
ppm/˚C
+25
mV
mA
0.8
Volt
VDD= 5V +5%
Volt
VDD= 5V +5%
2.0
Input Current IIN
+1
µA
Input Capacitance
3
pF
Digital Outputs
Data Format (1)
Data Coding (2)
VOH
4.0
VOL
0.4
Volt
VDD=5V±5%, IOH=-0.4mA
Volt
VDD=5V±5%, IOL=+1.6mA
AC Accuracy
fin=47KHz,VDD=5.0V
@ 25˚C, SCLK=4MHz
Spurious Free Dynamic
Range (SFDR)
83
dB
Total Harmonic Distortion
(THD)
-80
dB
Signal to Noise &
Distortion (SINAD)
71
dB
Signal to Noise (SNR)
72
dB
Acquisition Time to 0.01%
200
ns
-3dB Small Signal BW
13
MHz
Aperture Delay
35
ns
Aperture Jitter
10
ps RMS
Sampling Dynamics
SP8531DS/01
SP8531 12-Bit Sampling Serial Out Analog to Digital Converter
3
For a +FS step change
at input
© Copyright 1999 Sipex Corporation
SPECIFICATIONS (continued)
Unless otherwise noted the following specifications apply for VDD = 5V with limits applicable for TA = 25˚C.
PARAMETER
MIN.
TYP.
MAX.
UNIT
5.25
Volts
CONDITIONS
Power Supplies
VDD
4.75
Supply Current
Operating Mode
11.5
17
mA
SD=0, VDD=+5.0V
Shutdown Mode
0.01
2
µA
SD=1, VDD = +5.0V
Power Dissipation
Operating Mode
Shutdown Mode
60
0.05
85
10
mW
µW
SD=0
SD=1
20
µS
Via Shutdown Control
to 1 LSB settling error.
Power Turn On
Temperature Range
Commercial
0
to
+70
˚C
Industrial
-40
to
+85
˚C
Storage
-65
to
+150
˚C
(1) Data Format is 12-Bit Serial
(2) Data Coding is Binary (See Timing Diagram)
SP8531DS/01
SP8531 12-Bit Sampling Serial Out Analog to Digital Converter
4
© Copyright 1999 Sipex Corporation
CIRCUIT OPERATION
Figure 1 shows a simple circuit required to
operate the SP8531. The conversion is
controlled by the user supplied signal Chip
Select Bar (CS) which selects and deselects the
device, and a system clock (SCLK).
PIN ASSIGNMENTS
Pin 1-N.C.-No Connection
Pin 2-N.C.-No Connection
Pin 3-VIN - Analog Input
Pin 4-AGND-Analog Ground
Pin 5-VSS-Digital Ground
Pin 6-SCLK-Serial Clock Input
Pin 7-DOUT Digital Data Output
Pin 8-STATUS- High During Conversion
Pin 9-CS-Chip Select Bar Input High Deselects chip -Low Selects chip
Pin 10-SD-Shutdown Input, logic low=power
up, logic high = powerdown
Pin 11-VDD Digital +5V supply
Pin 12-VDA Analog +5V supply
Pin 13-OffADJ- External Offset Adjust
Pin 14-N.C.-No Connection
Pin 15-REFOUT-Voltage Reference Output
Pin 16-GAINADJ-External Gain Adjustment
N.C.
1
16
GAIN ADJUST
N.C.
2
15
REF OUT
VIN
3
14
N.C.
AGND
4
13
OFFSET ADJ.
VSS
5
12
VDA
SCLK
6
11
VDD
DOUT
7
10
SD
STATUS
8
9
CS
SP8531
A high level applied to CS asynchronously
clears the internal logic, puts the sample & hold
(CDAC) into sample mode and places the DOUT
(Data Output) pin in a high impedance state.
Conversion is initiated by falling edge on CS in
slave mode at which point the input voltage is
held and a conversion is started. A delay of 90ns
is required between the falling edge of CS and
the first rising of SCLK.
The device responds to the shut down signal
asynchronously so that a conversion in progress
will be interrupted and the resulting data will
be erroneous. A 20 µSec minimum delay is
required between the falling edge of shut down
and initiation of a conversion.
Data Format
16 bits of data are sent for each conversion. The
data is shipped with 4 leading "0"s, and then 12
bits of data, MSB first. Data changes on the
falling edge of SCLK and is stable on the rising
edge of SCLK.
Continuous stand alone operation is obtained by
holding CS low. In this mode an oscillator is
connected directly to the SCLK pin. The SCLK
signal along with the STATUS output Signal
are used to synchronize the host system with the
converter's data. In this mode there is a single
dead SCLK cycle between the 16th clock of one
conversion and the first clock of the following
conversion for the SP8531. At a clock
frequency of 4 MHz the SP8531 provides a
throughput rate of 235KHz.
FEATURES
The SP8531 is a sampling, 12-Bit serial out
data acquisition system. The device contains a
high speed 12-bit analog to digital converter,
internal reference, and sample and hold
circuitry.
In slave mode operation, CS is brought high
between each conversion so that all conversions
are initiated by falling edge on CS.
The SP8531 is fabricated in Sipex' Bipolar
Enhanced CMOS Process that permits state-ofthe-art design using bipolar devices in the
analog/linear section and extremely low power
CMOS in the digital/logic section.
SP8531DS/01
SP8531 12-Bit Sampling Serial Out Analog to Digital Converter
5
© Copyright 1999 Sipex Corporation
10kOhms
VIN
CLOCK IN
1
N.C.
GAIN ADJUST 16
2
N.C.
REF OUT 15
3
VIN
4
AGND
5
VSS
6
SCLK
5kOhms
N.C. 14
OFFSET ADJ. 13
SP8531
2kOhms
VDA 12
7
DOUT
SD 10
8
STATUS
CS
9
+
+5V
VDD 11
0.1µF
6.8µF
6.8µF
0.1µF
DATA OUT
STATUS OUT
CHIP SELECT
SHUTDOWN
* Optional filter capacitor is helpful in a noisy pc board application.
Figure 1. Operating Circuit
Input Impedance
To avoid introducing distortion when driving
the analog inputs of these devices, the source
resistance must be very low, or constant with
signal level. Note that in the operating circuit
there is no connection made between VDA
(Pin 12) and the system power supply. This is
because the analog supply pin (VDA) is
connected internally to the digital supply pin
(VDD) through a ten ohm resistor.
The input of the SP8531 can be modeled as a
resistor in series with a ground referenced DC
voltage source of 1.0 volt. Note that the input
resistor is a switched capacitor resistor and so its
value is inversely proportional to conversion
rate. When the ADC is in free running mode
with a 4 MHz clock applied (a conversion rate of
235 Ksps) the input resistance is nominally
600K. At a conversion rate of 117.5 Ksps the
input resistor value would double to 1.2
megohms. In order to avoid introducing an unadjusted gain error greater than 1 lsb, the device
must be driven by a source whose resistance is
4096 times smaller than its input impedance. At
the 4 MHz clock rate this would require a source
whose resistance was less than 146 Ohms.
This ten ohm resistor when combined with a
parallel combination of 6.8µF tantalum and
0.1µF ceramic capacitor between VDA and
analog ground, will provide some immunity to
noise which resides on the system supply. To
maintain maximum system accuracy, the
supply connected to the VDD pin should be well
isolated from digital supplies and wide load
variations.
Layout Considerations
Because of the high resolution and linearity of
the SP8531, system design considerations such
as ground path impedance and contact
resistance become very important.
SP8531DS/01
To limit effects of digital switching elsewhere
in a system, it often makes sense to run a
separate +5V supply conductor from the supply
SP8531 12-Bit Sampling Serial Out Analog to Digital Converter
6
© Copyright 1999 Sipex Corporation
regulator to any analog components requiring
+5V including the SP8531. Noise on the power
supply lines can degrade the converters
performance, especially corrupting are noise
and spikes from a switching power supply.
Minimizing “Glitches”
Coupling of external transients into an analog to
digital converter can cause errors which are
difficult to debug. In addition to the above
discussions on layout considerations, bypassing
and grounding, there are several other useful
steps that can be taken to get the best analog
performance from a system using the SP8531
converter. These potential system problem
sources are particularly important to consider
when developing a new system, and looking for
causes of errors in breadboards.
The ground pins (AGND and VSS) on the
SP8531 are separated internally and should be
connected to each other under the converter.
Applying the technique of using separate
analog and digital ground planes is usually the
best way to preserve dynamic performance and
reduce noise coupling into sensitive converter
circuits. Where any compromise must be made
the common return of the analog input signal
should be referenced to the AGND pin of the
converter. This prevents any voltage drops that
might occur in the power supply's common
return from appearing in series with the input
signal.
First, care should be taken to avoid transients
during critical times in the sampling and
conversion process. Since the SP8531 has a
internal sample/hold function, the signal that
puts the device into hold state (CS going low) is
critical, as it would be on any sample/hold
amplifier. The CS falling edge should have a 5
to 10 ns transition time, low jitter, and have
minimal ringing, especially during the first 20ns
after it falls.
Coupling between analog and digital lines should
be minimized by careful layout. For instance, if
analog and digital lines must cross they should
do so at right angles. Parallel analog and digital
lines should be separated from each other by a
trace connected to common.
If external gain and offset potentiometers are
used, the potentiometers and related resistors
should be located as close to the SP8531 as
possible.
SP8531DS/01
SP8531 12-Bit Sampling Serial Out Analog to Digital Converter
7
© Copyright 1999 Sipex Corporation
TIMING CHARACTERISTICS
(Typical @ 25°C with VDD = +5V, unless otherwise noted)
PARAMETER
MIN.
Thoughput Time (tTP=tA+tC)
4.25
TYP.
MAX.
UNIT
Acquisition Time (tA) (2 SCLK Periods)
400
Conversion Time (tC) (15 SCLK Periods)
3.75
SCLK Low Pulse Width (tSKL)
110
125
ns
SCLK High Pulse Width (tSKH)
110
125
ns
SCLK Period (tSKT)
250
500
ns
µs
ns
Bus Access Time (tCBA)
51
ns
Bus Relinquish Time (tBR)
45
ns
Setup Time -SCLK Falling to CSN Falling (tCSSU)
0
ns
CSN Low Before SCLK Rises (tCS)
90
ns
SCLK Falling to Data Valid (tSD)
50
ns
CSN Falling to status Rising (tDCS)
69
ns
SCLK 17 Falling to Status Rising Free Run (tDSS)
70
ns
SCLK 16 Falling to Status Falling ( tDSE)
45
ns
Delay SD Low to initiate Conversion (tPU)
5
µs
Aperture Delay Slave-Mode (tAPC)
30
ns
Aperture Delay Free-Running Mode (tAPS)
35
ns
SP8531DS/01
SP8531 12-Bit Sampling Serial Out Analog to Digital Converter
8
COND.
µs
© Copyright 1999 Sipex Corporation
SP8531DS/01
9
SP8531 12-Bit Sampling Serial Out Analog to Digital Converter
SD
MODE
DOUT
STATUS
CS
SCLK
DOUT
STATUS
CSN
SCLK
HI-Z
tPU
tAPC
2
AQUIRE
1
3
6
15
16
tDCS
tCBA
tSKH
1
DATA WORD N
D11 D10
D0
5
tCSSU
tCS
4
2
tSKL
tC
tSKT
3
4
2
3
D10
CONVERT
D11
tSD
5
1
5
6
15
16
D1
D0
16
tA
AQUIRE
tBR
tDSE
DATA WORD (N+1)
D11 D10
D0
15
4
HI-Z
TIMING DIAGRAMS
Slave Mode
© Copyright 1999 Sipex Corporation
SP8531DS/01
15
10
SP8531 12-Bit Sampling Serial Out Analog to Digital Converter
D0
16
MODE AQUIRE
DOUT
STATUS
CSN
SCLK 17
tAPS
DOUT D1
STATUS
CSN
SCLK
1
tSKH
1
tDSS
17
2
“0”
2
tSKL
3
4
6
15
3
tSKT
5
D11
tC
CONVERT
4
D0
16
tSD
DATA WORD N
D1
D11 D10
5
6
1
D10
17
2
3
4
6
15
D1
15
D11 D10
D0
16
17
“0”
17
tSDE
D0
16
tA
AQUIRE
D1
DATA WORD (N+1)
5
1
2
CONVERT
1
TIMING DIAGRAMS
Free Running Mode
© Copyright 1999 Sipex Corporation
Communication to DSP TMS320C26 in
Free-Run
The Data Out (Dout) can be connected directly
to the Data Receive (DR) of the DSP and both
elements use the same externally provided clock.
The minimal hold time for DR after falling edge
of CLKR is 20ns where the typical hold time for
the SP8531 is 50ns making the data read valid.
To use free-run mode the chip select on the
SP8531 must be low and is therefore tied to
ground. Since status gives a low pulse before the
start of conversion, this signal is used to provide
the necessary Frame Sync Receive (FSR) pulse
to start reading the data. All it needs is an
inverter to provide for the correct logic level.
VIN
VIN
Note that although the SP8531 is essentially a
12 bit converter, it sends 16 bits with the four
MSB’s as zero’s.
STATUS
FSR
CS
DSP
TMS320C26
SP8531
DOUT
DR
SCLK
CLKR
CLK
SP8531DS/01
SP8531 12-Bit Sampling Serial Out Analog to Digital Converter
11
© Copyright 1999 Sipex Corporation
SP8531DS/01
SP8531 12-Bit Sampling Serial Out Analog to Digital Converter
12
© Copyright 1999 Sipex Corporation
RINT:
DR:
DOUT:
FSR:
STATUS:
CLKR=SCKL:
A1
MSB
A1
0
1
A2
0
2
A3
0
3
A4
0
4
6
7
A5
A6
A7
D11 D10 D9
5
A8
D8
8
D6
10
D5
11
DR:
DOUT:
CLKR, SCLK:
tR
D4
12
D3
13
D2
14
D1
15
D0
16
A9 A10 A11 A12 A13 A14 A15 A16
LSB
D7
9
tR min = 20 ns
tR = 50 ns typ.
TIMING DIAGRAM FOR SP8531 TO DSP TMS320C26
17
17
1
B1
SP8531DS/01
SP8531 12-Bit Sampling Serial Out Analog to Digital Converter
13
© Copyright 1999 Sipex Corporation
PACKAGE: PLASTIC
DUAL–IN–LINE
(NARROW)
E1 E
D1 = 0.005" min.
(0.127 min.)
A1 = 0.015" min.
(0.381min.)
D
A = 0.210" max.
(5.334 max).
C
A2
B1
B
e = 0.100 BSC
(2.540 BSC)
Ø
L
eA = 0.300 BSC
(7.620 BSC)
ALTERNATE
END PINS
(BOTH ENDS)
DIMENSIONS (Inches)
Minimum/Maximum
(mm)
8–PIN
14–PIN
16–PIN
18–PIN
20–PIN
22–PIN
A2
0.115/0.195
(2.921/4.953)
0.115/0.195
(2.921/4.953)
0.115/0.195
(2.921/4.953)
0.115/0.195
(2.921/4.953)
0.115/0.195
(2.921/4.953)
0.115/0.195
(2.921/4.953)
B
0.014/0.022
(0.356/0.559)
0.014/0.022
(0.356/0.559)
0.014/0.022
(0.356/0.559)
0.014/0.022
(0.356/0.559)
0.014/0.022
(0.356/0.559)
0.014/0.022
(0.356/0.559)
B1
0.045/0.070
(1.143/1.778)
0.045/0.070
(1.143/1.778)
0.045/0.070
(1.143/1.778)
0.045/0.070
(1.143/1.778)
0.045/0.070
(1.143/1.778)
0.045/0.070
(1.143/1.778)
C
0.008/0.014
(0.203/0.356)
0.008/0.014
(0.203/0.356)
0.008/0.014
(0.203/0.356)
0.008/0.014
(0.203/0.356)
0.008/0.014
(0.203/0.356)
0.008/0.014
(0.203/0.356)
D
0.355/0.400
0.735/0.775
0.780/0.800
0.880/0.920
0.980/1.060
1.145/1.155
(9.017/10.160) (18.669/19.685) (19.812/20.320) (22.352/23.368) (24.892/26.924) (29.083/29.337)
E
0.300/0.325
(7.620/8.255)
0.300/0.325
(7.620/8.255)
0.300/0.325
(7.620/8.255)
0.300/0.325
(7.620/8.255)
0.300/0.325
(7.620/8.255)
0.300/0.325
(7.620/8.255)
E1
0.240/0.280
(6.096/7.112)
0.240/0.280
(6.096/7.112)
0.240/0.280
(6.096/7.112)
0.240/0.280
(6.096/7.112)
0.240/0.280
(6.096/7.112)
0.240/0.280
(6.096/7.112)
L
0.115/0.150
(2.921/3.810)
0.115/0.150
(2.921/3.810)
0.115/0.150
(2.921/3.810)
0.115/0.150
(2.921/3.810)
0.115/0.150
(2.921/3.810)
0.115/0.150
(2.921/3.810)
Ø
0°/ 15°
(0°/15°)
0°/ 15°
(0°/15°)
0°/ 15°
(0°/15°)
0°/ 15°
(0°/15°)
0°/ 15°
(0°/15°)
0°/ 15°
(0°/15°)
SP8531DS/01
SP8531 12-Bit Sampling Serial Out Analog to Digital Converter
14
© Copyright 1999 Sipex Corporation
PACKAGE: PLASTIC
SMALL OUTLINE (SOIC)
E
H
D
A
Ø
e
B
DIMENSIONS (Inches)
Minimum/Maximum
(mm)
SP8531DS/01
A1
L
14–PIN
16–PIN
18–PIN
20–PIN
24–PIN
28–PIN
A
0.090/0.104
(2.29/2.649))
0.090/0.104
(2.29/2.649)
0.090/0.104
(2.29/2.649))
0.090/0.104
(2.29/2.649)
0.090/0.104
(2.29/2.649)
0.090/0.104
(2.29/2.649)
A1
0.004/0.012
(0.102/0.300)
0.004/0.012
(0.102/0.300)
0.004/0.012
(0.102/0.300)
0.004/0.012
(0.102/0.300)
0.004/0.012
(0.102/0.300)
0.004/0.012
(0.102/0.300)
B
0.013/0.020
(0.330/0.508)
0.013/0.020
(0.330/0.508)
0.013/0.020
(0.330/0.508)
0.013/0.020
(0.330/0.508)
0.013/0.020
(0.330/0.508)
0.013/0.020
(0.330/0.508)
D
0.348/0.363
(8.83/9.22)
0.398/0.413
(10.10/10.49)
0.447/0.463
(11.35/11.74)
0.496/0.512
(12.60/13.00)
0.599/0.614
(15.20/15.59)
0.697/0.713
(17.70/18.09)
E
0.291/0.299
(7.402/7.600)
0.291/0.299
(7.402/7.600)
0.291/0.299
(7.402/7.600)
0.291/0.299
(7.402/7.600)
0.291/0.299
(7.402/7.600)
0.291/0.299
(7.402/7.600)
e
0.050 BSC
(1.270 BSC)
0.050 BSC
(1.270 BSC)
0.050 BSC
(1.270 BSC)
0.050 BSC
(1.270 BSC))
0.050 BSC
(1.270 BSC)
0.050 BSC
(1.270 BSC)
H
0.394/0.419
(10.00/10.64)
0.394/0.419
(10.00/10.64)
0.394/0.419
(10.00/10.64)
0.394/0.419
(10.00/10.64)
0.394/0.419
(10.00/10.64)
0.394/0.419
(10.00/10.64)
L
0.016/0.050
(0.406/1.270)
0.016/0.050
(0.406/1.270)
0.016/0.050
(0.406/1.270)
0.016/0.050
(0.406/1.270)
0.016/0.050
(0.406/1.270)
0.016/0.050
(0.406/1.270)
Ø
0°/8°
(0°/8°)
0°/8°
(0°/8°)
0°/8°
(0°/8°)
0°/8°
(0°/8°)
0°/8°
(0°/8°)
0°/8°
(0°/8°)
SP8531 12-Bit Sampling Serial Out Analog to Digital Converter
15
© Copyright 1999 Sipex Corporation
ORDERING INFORMATION
Model segment
Model ..................................................... INL Linearity (LSB) ............................. Temperature Range .................................... Package Types
SP8531JN ........................................................... ±1.0 ................................................ 0˚C to +70˚C ............................... 16-pin, 0.3" Plastic DIP
SP8531JS ........................................................... ±1.0 ................................................ 0˚C to +70˚C ........................................ 16-pin, 0.3" SOIC
SP8531KN ......................................................... ±0.75 ............................................... 0˚C to +70˚C ............................... 16-pin, 0.3" Plastic DIP
SP8531KS ......................................................... ±0.75 ............................................... 0˚C to +70˚C ........................................ 16-pin, 0.3" SOIC
SP8531AN .......................................................... ±1.0 ............................................... -40˚C to +85˚C ............................. 16-pin, 0.3" Plastic DIP
SP8531AS .......................................................... ±1.0 ............................................... -40˚C to +85˚C ...................................... 16-pin, 0.3" SOIC
SP8531BN ......................................................... ±0.75 .............................................. -40˚C to +85˚C ............................. 16-pin, 0.3" Plastic DIP
SP8531BS ......................................................... ±0.75 .............................................. -40˚C to +85˚C ...................................... 16-pin, 0.3" SOIC
Please consult the factory for pricing and availability on a Tape-On-Reel option.
Corporation
SIGNAL PROCESSING EXCELLENCE
Sipex Corporation
European Sales Offices:
Far East:
Headquarters and
Sales Office
22 Linnell Circle
Billerica, MA 01821
TEL: (978) 667-8700
FAX: (978) 670-9001
e-mail: [email protected]
ENGLAND:
Sipex Corporation
2 Linden House
Turk Street
Alton Hampshire GU34 IAN
England
TEL: 44-1420-549527
FAX: 44-1420-542700
e-mail: [email protected]
JAPAN:
Nippon Sipex Corporation
Yahagi No. 2 Building
3-5-3 Uchikanda, Chiyoda-ku
Tokyo 101
TEL: 81.3.3256.0577
FAX: 81.3.3256.0621
Sales Office
233 South Hillview Drive
Milpitas, CA 95035
TEL: (978) 934-7500
FAX: (978) 935-7600
GERMANY:
Sipex GmbH
Gautinger Strasse 10
82319 Starnberg
TEL: 49.81.51.89810
FAX: 49.81.51.29598
e-mail: [email protected]
Sipex Corporation reserves the right to make changes to any products described herein. Sipex does not assume any liability arising out of the
application or use of any product or circuit described hereing; neither does it convey any license under its patent rights nor the rights of others.
SP8531DS/01
SP8531 12-Bit Sampling Serial Out Analog to Digital Converter
16
© Copyright 1999 Sipex Corporation