ald500rau Advanced Linear Devices Inc (ALD), ald500rau Datasheet

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ald500rau

Manufacturer Part Number
ald500rau
Description
Precision Integrating Analog Processor With Precision Voltage Reference - Advanced Linear Devices
Manufacturer
Advanced Linear Devices Inc (ALD)
Datasheet
1.ALD500RAU.pdf (12 pages)
APPLICATIONS
• 4 1/2 digits to 5 1/2 digits plus sign measurements
• Precision analog signal processor
• Precision sensor interface
• High accuracy DC measurement functions
• Portable battery operated instruments
• Computer peripheral
• PCMCIA
FEATURES
• Resolution up to 18 bits plus sign bit and over-range bit
• Accuracy independent of input source impedances
• Accurate on-chip voltage reference
• Tempco as low as 10 ppm/ C guaranteed
• Chip select - power down mode
• High input impedance of 10
• Inherently filters and integrates any external noise spikes
• Differential analog input
• Wide bipolar analog input voltage range 3.5V
• Automatic zero offset compensation
• Low linearity error - as low as 0.001% typical
• Fast zero-crossing comparator - 1 s
• Low power dissipation - 6mW typical
• Automatic internal polarity detection
• Low input current - 2pA typical
• Optional digital control from a microcontroller, an ASIC, or
• Flexible conversion speed vs. resolution trade-off
*
Resolution Endpoint
Contact factory for customized voltage reference voltage levels, accuracy and tempco specifications.
a dedicated digital circuit
16 bit
17 bit
18 bit
17 bit
18 bit
17 bit
18 bit
18 bit
Rev. 1.01 © 1999 Advanced Linear Devices, Inc., 415 Tasman Drive, Sunnyvale, California 94089-1706 Tel: (408) 747-1155, Fax: (408) 747-1286
Linearity
0.015%
0.01%
0.005%
0.01%
0.005%
0.01%
0.005%
0.005%
A
L
D
INEAR
DVANCED
EVICES,
Voltage Reference
Accuracy/Tempco
0.3% 20ppm/C
0.2% 10ppm/C
0.3% 20ppm/C
0.3% 20ppm/C
0.5% 50ppm/C
I
NC.
PRECISION INTEGRATING ANALOG PROCESSOR
12
WITH PRECISION VOLTAGE REFERENCE
ALD500R-50PE
ALD500RA-20PE
ALD500RAU-20PE
ALD500RA-10PE
ALD500RAU-10PE
ALD500RA-20PEI
ALD500RAU-20PEI
20L PDIP
Ordering Information
http://www.aldinc.com
ALD500R-50SE
ALD500RA-20SE
ALD500RAU-20SE
ALD500RA-10SE
ALD500RAU-10SE
ALD500RA-20SEI
ALD500RAU-20SEI
20L SOIC
Package Type
ALD500R-50QE
ALD500RA-20QE
ALD500RAU-20QE
ALD500RA-10QE
ALD500RAU-10QE
ALD500RA-20QEI
ALD500RAU-20QEI
BENEFITS
• Low cost, simple functionality
• Wide dynamic signal range
• Very high noise immunity
• Automatic compensation and cancellation
• Easy to use to acquire bipolar signals
• Up to 19 bit (18 bit + sign bit) single conversion
• Inherently linear and stable with temperature
PIN CONFIGURATION
of error sources
or 21 bit (20 bit + sign bit) multiple conversion
and noise performance
and component variations
20L QSOP
* N/C pin is connected internally. Connect to V - .
ALD500RAU/ALD500RA/ALD500R
C +
AGND
C -
C
C
B
REF
REF
N/C
N/C
INT
I
V -
AZ
UF
B
10
4
6
7
1
2
3
5
8
9
QE, PE, SE PACKAGE
ALD500RAU-20DE
ALD500R
20LCDIP
18
17
16
15
14
13
12
11
20
19
C
C
V +
DGND
B
V +
V -
V +
V -
A
0 C to 70 C
0 C to 70 C
0 C to 70 C
-40 C to +85 C
-55 C to +125 C
S
OUT
IN
REF
Temperature
IN
REF
Operating

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ald500rau Summary of contents

Page 1

... AGND REF REF 9 N/C 10 N/C QE, PE, SE PACKAGE * N/C pin is connected internally. Connect Package Type 20L QSOP 20LCDIP ALD500R-50QE ALD500RA-20QE ALD500RAU-20QE ALD500RA-10QE ALD500RAU-10QE ALD500RA-20QEI ALD500RAU-20QEI ALD500RAU-20DE DGND 17 C OUT ...

Page 2

... (13) GENERAL DESCRIPTION The ALD500RAU/ALD500RA/ALD500R are integrating dual slope analog processors, designed to operate on 5V power supplies for building precision analog-to-digital converters. The ALD500RAU/ALD500RA/ALD500R feature specifications suitable for 18 bit/17 bit/16 bit resolution conversion, respectively. Together with three capacitors, two resistors, and a digital controller, a precision Analog to Digital converter with auto zero can be implemented ...

Page 3

... Unknown time period over which a known DINT ANALOG INPUT ( VOLTAGE REFERENCE ALD500RAU/ALD500RA/ALD500R V REF C INT R INT Actual data conversion is accomplished in two phases: Input Signal Integration Phase and Reference Voltage Deintegration Phase. The integrator output is initialized to 0V prior to the start of Input Signal Integration Phase. During Input Signal Integration ...

Page 4

... Notes 1, 2 0.020 +70 C 0.003 0.008 % Notes 1, 2 0.015 +70 C 0.3 0 +70 C 0.15 0.35 ppm/ C Notes 0.012 % 1.3 ppm +70 C Note -1 -0 AGND = ALD500RAU/ALD500RA/ALD500R ...

Page 5

... Positive Input Signal C OUT NOT VALID Negative Input Signal Auto Zero Phase Clock data in or clock data out of counters within the the microcontroller or fixed logic controller, START as needed. CONVERSION CYCLE START INTEGRATION CYCLE ALD500RAU/ALD500RA/ALD500R = C AZ 500RAU 500RA Typ Max Min Typ Max 0.6 1.0 0.6 1 5.5 4 ...

Page 6

... 2.0V Full Scale INT characteristics. ~ REF AZ Advanced Linear Devices = 0. 100K (1% metal film) REF REF 500RAU-50 Unit 500RA-50 500R-50 Min Typ Max 1.000 1.005 ppm/C -0.08 ppm/ 1000hrs 10 min. 5.5 4.5 5.5 V -4.5 -5.5 -4 ALD500RAU/ALD500RA/ALD500R Test Conditions Note 7 Note 7 Note 7 ...

Page 7

... Integrator Output Zero *SW + would be closed for a positive input signal ALD500RAU/ALD500RA/ALD500R is HIGH during the Integration phase when a positive input voltage is being integrated and OUT is undefined during the Auto-Zero phase. It should be monitored to OUT Logic 1 = power on. Logic 0 = power down. Switch Functions ...

Page 8

... The Integrator Output Zero phase should be activated (AB = 00) until C high. At this point, the integrator output is near zero. Auto Zero Phase should be entered (AB = 01) and the ALD500RAU/ ALD500RA/ALD500R is held in this state until the next conversion cycle. Advanced Linear Devices ...

Page 9

... Phase Control Inputs (A, B) The A and B logic inputs select the ALD500RAU/ALD500RA/ ALD500R operating phase. The A and B inputs are normally driven by a microprocessor I/O port or external logic, using CMOS logic levels. For logic control functions of A and B logic inputs, see Table 1 ...

Page 10

... C REF C and C AZ REF Calculate V REF The reference deintegration voltage is calculated using: V REF The ALD500RAU/ALD500RA/ALD500R requires an external is a INT order to operate properly. This R REF metal film 100K resistor, 50 ppm/C. Any other loading must . REF be high impedance ( 100M ). Converter Noise The converter noise is the total algebraic sum of the integrator ...

Page 11

... MAX DINT For t MAX = DINT INT equation (9) becomes MAX INT INT V = REF 2t INT ALD500RAU/ALD500RA/ALD500R DESIGN EXAMPLES We now apply these equations in the following design examples (1) DINT Design Example INT INT 1. Pick resolution = 16 bit. 2. Pick t t DINT (2) C INT (2a) 3 ...

Page 12

... INT range = 100 K For INT - (0.133333 INT = C = 0.67 F REF 266.667 msec. DINT INT as shown in Design Example 1, REF substituting the appropriate values MAX R INT INT INT V = REF t MAX DINT ~ = 1.005V ALD500RAU/ALD500RA/ALD500R ~ -6 )/4 = 0.67 F ...

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