Analog Devices
Accelerometers, Analog-to-Digital and Digital-to-Analog Converters
794
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ALLIED See Our Manufacturer Index Located In Section 1
ADXL Accelerometer Evaluation Kit
The ADXL-EB evaluation board comes complete with non-resonant surface-mount resistors and capacitors and allows
users to configure and customize the accelerometerÕs scale factor, 0 g bias level, and bandwidth; with either ac or dc
coupling. This compact (0.8" ´0.8") board provides access to every pin, including output, self-test and reference
terminals Ñ perfect for initial evaluation and introductory operation.
Mfr.Õs Description
Type
ADXL202EB ADXL202 Dual Axis Evaluation Module
Accelerometers
ADXL150/ADXL250. Third generation ±50 g surface micromachined accelerometers. These improved replacements for
the ADXL05 offer lower noise, wider dynamic range, reduced power consumption and improved zero g bias drift. The
ADXL150 is a single axis product; the ADXL250 is a fully integrated dual axis accelerometer with signal conditioning on a
single monolithic IC, the first of its kind available on the commercial market. The two sensitive axes of the ADXL250 are
orthogonal (90¡) to each other. Both devices have their sensitive axes in the same plane as the silicon chip.
ADXL202. A low cost, low power complete 2-axis accelerometer with a measurement range of ±2 g. The ADXL202 can
measure both dynamic acceleration (e.g., vibration) and static acceleration (e.g., gravity).
Resolution Throughput SHA Bus Reference
Linearity Error
in Rate kSPS BW Interface Voltage Comments
(LSB @ TA = +25¡C)
Bits Max. (kHz Typ.) Bits Int./Ext.à
Mfr.Õs
Type
PDIP
AD7821KN 8 1000.00 ±1.0 100 8, µP 0-5 V, Ext. CMOS, Bipolar or Unipolar Operation
AD7824KN 8 400.00 ±1.0 10 8, µP 0-5 V, Ext. CMOS, 4-Channel, 8-Bit Sampling ADC
AD7828KN 8 400.00 ±1.0 10 8, µP 0-5 V, Ext. CMOS, 8-Channel, 8-Bit Sampling ADC
AD7828LN 8 400.00 ±
1
/
2
10 8, µP 0-5 V, Ext. CMOS, 8-Channel, 8-Bit Sampling ADC
AD1674JN 12 100.00 ±1.0 500 8/12/16, µP 10 V, Int. Complete AD574A Pinout Compatible, Sampling Input, AC/DC Tested
AD976AN 16 100.00 6 max. 1500 16, 8 Par/Byte, µP +2.5 V, Int./Ext. 16-Bit, 100 kSPS ADC
This column lists the data format for the bus with ÒµPÓ indicating microprocessor capability Ñ i.e., for a 12-bit converter 8/12, µP indicates that the data can be formatted for an 8-bit bus or can be in parallel (12 bits) and is microprocessor
compatible. àExt. indicates external reference with the range of voltages listed where applicable. Ext. (M) indicates external reference with multiplying capability. Int. indicates reference is internal. A voltage value is given if the reference is
pinned out.
Non-Sampling Analog-to-Digital Converters
Analog-to-Digital Converters
Sampling Analog-to-Digital Converters
Mfr.Õs
Type
Primary
Output
BW
(kHz)
Range
(g)
Sensitivity
(mV/g)
No. of
Leads Axis
Power
Vs
(V)
Is
(mA)
ADXL150AQC +5 3 DC 1 ±5 to ±50 35 to 41 14 Single
ADXL150JQC +5 3 DC 1 ±5 to ±50 35 to 41 14 Single
ADXL202AQC +3 1 PWM 6 ±2 T1/T2 14 Dual
ADXL202JQC +3 1 PWM 6 ±2 T1/T2 14 Dual
ADXL250AQC +5 6 DC 1 ±5 to ±50 35 to 41 14 Dual
Resolution Conv. Bus Reference
Linearity Error
in Rate Interface Voltage Comments
(LSB @ TA = +25¡C)
Bits (µS Max.) Bits* Int./Ext.
Mfr.Õs
Type
Hermetic DIP PDIP
Ñ AD673JN 8 30 ±
1
/
2
8, µP Int. Complete 8-Bit ADC with Reference, Clock and Comparator
AD574AJD AD574AJN 12 35 ±1 8/12, µP 10 V, Int. Complete ADC with Reference and Clock; Industry Standard
AD574AKD AD574AKN 12 35 ±
1
/
2
8/12, µP 10 V, Int. Complete ADC with Reference and Clock; Industry Standard
Ñ AD674BJN 12 15 ±1 8/12, µP 10 V, Int. Complete Monolithic 12-Bit A/D Converter with Reference, Clock, and 3-State Output Buffers
*This column lists the data format for the bus with ÒµPÓ indicating microprocessor capability Ñ i.e., for a 12-bit converter 8/12, µP indicates that the data can be formatted for an 8-bit bus or can be in parallel (12 bits) and is microprocessor compatible.
Ext. indicates external reference with the range of voltages listed where applicable. Ext. (M) indicates external reference with multiplying capability. Int. indicates reference is internal. A voltage value is given if the reference is pinned out.
Sigma Delta Analog-to-Digital Converters
Resolution Bus Reference
Linearity Error
in Interface Voltage Comments
(LSB @ TA = +25¡C)
Bits Bits* Int./Ext.
Mfr.Õs
Type
PDIP SOIC
AD7712AN Ñ 24 ±0.0045% FSR Typ. Serial, µP 2.50 V, Int. 24-Bit ADC with 1 Differential Input Channel and 1 High Voltage Input Channel
AD7714AN-5 AD7714AR-5 24 ±0.0015% FSR Serial, µP 1.25 V, Ext. 5 V, Charge Balancing ADC with PGA, MUX and Low Pass Filter with Programmable Cutoffs
*This column lists the data format for the bus with ÒµPÓ indicating microprocessor capability Ñ i.e., for a 12-bit converter 8/12, µe data can be formatted for an 8-bit bus or can be in parallel (12 bits) and is microprocessor compatible. Ext. indicates
external reference with the range of voltages listed where applicable. Ext. (M) indicates external reference with multiplying capability. Int. indicates reference is internal. A voltage value is given if the reference is pinned out.
Digital-to-Analog Converters
AD7524JN AD7524JR 8 0.100 ±
1
/
2
8, µP Ext. (M) CMOS, Low Cost, 8-Bit Multiplying DAC with Latch
AD7524KN Ñ 8 0.100 ±
1
/
4
8, µP Ext. (M) CMOS, Low Cost, 8-Bit Multiplying DAC with Latch
DAC08CP DAC08CS 8 0.085 ±0.390% FS 8 Ext. (M) 8-Bit High Speed Multiplying DAC
DAC08EP Ñ 8 0.085 ±0.190% FS 8 Ext. (M) 8-Bit High Speed Multiplying DAC
ADDAC8ON-CBI-V Ñ 12 4.000 Max. ±
1
/
2
12 6.3, ±2% Low Cost, 12-Bit Digital-to-Analog Converter
DAC8043FP Ñ 12 0.250 1.000 Serial, µP Ext. (M) 8-Pin DIP Serial Input 12-Bit CMOS Multiplying DAC
Single DACs, Voltage Output
AD557JN Ñ 8 0.800 1.000 8, µP Int. Lowest Cost 8-Bit DACPORT; Single +5 V Supply
AD558JN Ñ 8 3.000 ±
1
/
2
8, µP Int. 10 V Out DACPORT, Single or Dual Supply
AD558KN Ñ 8 3.000 ±
1
/
4
8, µP Int. 10 V Out DACPORT, Single or Dual Supply
AD7224KN Ñ 8 5.000 Max. ±2.000 8, µP 2-12.5 V, Ext. CMOS, Low Cost 8-Bit DAC
AD667JN Ñ 12 3.000 ±
1
/
2
4/8/12, µP 10 V, Int. Highest Accuracy Complete 12-Bit DAC
AD667KN Ñ 12 3.000 ±
1
/
4
4/8/12, µP 10 V, Int. Highest Accuracy Complete 12-Bit DAC
AD7233AN Ñ 12 10.000 Max. ±1.000 Serial, µP Int. Smallest 12-Bit Serial DACPORT (8-Pin) Bipolar ±5 V Output Range
AD767KN Ñ 12 3.000 ±
1
/
2
12, µP 10 V, Int. Fastest Interface Complete 12-Bit DAC
AD669AN Ñ 16 8.000 ±4.000 16, µP 10 V, Int. Monolithic, Complete 16-Bit DAC
This column lists the data format for the bus with ÒµPÓ indicating microprocessor capability Ñ i.e., for a 12-bit converter 8/12, µP indicates that the data can be formatted for an 8-bit bus or can be in parallel (12 bits) and is microprocessor
compatible. àExt. indicates external reference with the range of voltages listed where applicable. Ext. (M) indicates external reference with multiplying capability. Int. indicates reference is internal. A voltage value is given if the reference is pinned out.
A Digital-to-Analog (DAC) Converter accepts a digital input and produces an analog output. The basic DAC consists of a
voltage or current reference, binary weighted precision resistors, a set of electronic switches and a means of summing the
weighted currents. Three important criteria are required for selecting the right DAC Ñ resolution, accuracy and speed.
Other requirements to be considered are temperature stability, input coding, output format, reference requirements and
power consumption.
Single DACs, Current Output
Resolution Settling Bus Reference
Linearity Error
in Time Interface Voltage Comments
(LSB @ TA = +25¡C)
Bits (µs Typ.) Bits Int./Ext. (M)à
Mfr.Õs
Type
PDIP SOIC
13
