ADUC7060BSTZ32 Analog Devices Inc, ADUC7060BSTZ32 Datasheet - Page 40
ADUC7060BSTZ32
Manufacturer Part Number
ADUC7060BSTZ32
Description
DUAL 24-BIT AFE AND ARM 7 I.C
Manufacturer
Analog Devices Inc
Series
MicroConverter® ADuC7xxxr
Specifications of ADUC7060BSTZ32
Design Resources
4 mA-to-20 mA Loop-Powered Temperature Monitor Using ADuC7060/1 (CN0145) Low power, Long Range, ISM Wireless Measuring Node (CN0164)
Core Processor
ARM7
Core Size
16/32-Bit
Speed
10MHz
Connectivity
I²C, SPI, UART/USART
Peripherals
POR, PWM, Temp Sensor, WDT
Number Of I /o
14
Program Memory Size
32KB (16K x 16)
Program Memory Type
FLASH
Ram Size
4K x 8
Voltage - Supply (vcc/vdd)
2.375 V ~ 2.625 V
Data Converters
A/D 5x24b, 8x24b, D/A 1x14b
Oscillator Type
Internal
Operating Temperature
-40°C ~ 125°C
Package / Case
48-LQFP
Cpu Family
ADuC7xxx
Device Core
ARM7TDMI
Device Core Size
16/32Bit
Frequency (max)
10.24MHz
Interface Type
I2C/SPI/UART
Total Internal Ram Size
4KB
# I/os (max)
14
Number Of Timers - General Purpose
4
Operating Supply Voltage (typ)
2.5V
Operating Supply Voltage (max)
2.625V
Operating Supply Voltage (min)
2.375V
On-chip Adc
2(4-chx24-bit)
Instruction Set Architecture
RISC
Operating Temp Range
-40C to 125C
Operating Temperature Classification
Automotive
Mounting
Surface Mount
Pin Count
48
Package Type
LQFP
Package
48LQFP
Family Name
ADuC7xxx
Maximum Speed
10.24 MHz
Operating Supply Voltage
2.5 V
Data Bus Width
16|32 Bit
Number Of Programmable I/os
14
Number Of Timers
4
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Eeprom Size
-
Lead Free Status / Rohs Status
Compliant
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ADuC7060/ADuC7061
Table 39. Example Scenarios for Using Diagnostic Current Sources
Register Setting
ADC0DIAG[1:0] = 0
ADC0DIAG[1:0] = 1
ADC0DIAG[1:0] = 3
SINC3 FILTER
The number entered into Bits[6:0] of the ADCFLT register sets
the decimation factor of the sinc3 filter. See Table 46 and Table 47
for further details on the decimation factor values.
The range of operation of the sinc3 filter (SF) word depends on
whether the chop function is enabled. With chopping disabled,
the minimum SF word allowed is 3 and the maximum is 127,
giving an ADC throughput range of 50 Hz to 2 kHz.
For details on how to calculate the ADC sampling frequency
based on the value programmed to the SF[6:0] bits in the
ADCFLT register, refer to Table 46.
ADC CHOPPING
The ADCs on the ADuC706x implements a chopping scheme
whereby the ADC repeatedly reverses its inputs. Therefore, the
decimated digital output values from the sinc3 filter have a
positive and negative offset term associated with them. This
results in the ADC including a final summing stage that sums
and averages each value from the filter with previous filter
output values. This new value is then sent to the ADC data
MMR. This chopping scheme results in excellent dc offset and
offset drift specifications and is extremely beneficial in
applications where drift and noise rejection are required.
PROGRAMMABLE GAIN AMPLIFIER
The primary ADC incorporates an on-chip programmable gain
amplifier (PGA). The PGA can be programmed through 10
different settings giving a range of 1 to 512. The gain is
controlled by the ADC0PGA[3:0] bits in the ADC0CON MMR.
EXCITATION SOURCES
The ADuC706x contains two matched software configurable
current sources. These excitation currents are sourced from
AVDD. They are individually configurable to give a current
range of 200 μA to 1 mA. The current step sizes are 200 μA.
Description
Convert ADC0/ADC1 as normal with
diagnostic currents disabled.
Enable a 50 μA diagnostic current
source on ADC0 by setting
ADC0DIAG[1:0] = 1. Convert ADC0 and
ADC1.
Convert ADC0 in single-ended mode
with diagnostic currents disabled.
Enable a 50 μA diagnostic current
source on both ADC0 and ADC1 by
setting ADC0DIAG[1:0] = 3. Convert
ADC0 and ADC1.
Diagnostic Test
Rev. C | Page 40 of 108
Normal Result
Expected differential result
across ADC0/ADC1.
Main ADC changes by
ΔV = +50 μA × R1. For
example, ~100 mV for R1 =
2 kΩ.
Expected voltage on ADC0.
Primary ADC changes by ΔV
= 50 μA × (R1 − R2), that is,
~10 mV for 10% tolerance.
These current sources can be used to excite an external resistive
bridge or RTD sensors. The IEXCON MMR controls the
excitation current sources. Bit 6 of IEXCON must be set to
enable Excitation Current Source 0. Similarly, Bit 7 must be set
to enable Excitation Current Source 1. The output current of
each current source is controlled by the IOUT[3:0] bits of this
register.
It is also possible to configure the excitation current sources to
output current to a single output pin, either IEXC0 or IEXC1,
by using the IEXC0_DIR and IEXC1_DIR bits of IEXCON. This
allows up to 2 mA to output current on a single excitation pin.
ADC LOW POWER MODE
The ADuC706x allows the primary and auxiliary ADCs to be
placed in low power operating mode. When configured for this
mode, the ADC throughput time is reduced, but the power
consumption of the primary ADC is reduced by a factor of
about 4; the auxiliary ADC power consumption is reduced by a
factor of roughly 3. The maximum ADC conversion rate in low
power mode is 2 kHz. The operating mode of the ADCs is
controlled by the ADCMDE register. This register configures
the part for either normal mode (default), low power mode, or
low power plus mode. Low power plus mode is the same as low
power mode except that the PGA is disabled. To place the
ADCs into low power mode, the following steps must be
completed:
•
•
•
ADCMDE[4:3]—Setting these bits enables normal mode,
low power mode, or low power plus mode.
ADCMDE[5]—Setting this bit configures the part for low
power mode.
ADCMDE[7]—Clearing this bit further reduces power
consumption by reducing the frequency of the ADC clock.
Fault Result
Short circuit.
Short circuit
between ADC0
and ADC1.
Short circuit
between R1_a
and R1_b.
ADC0 open
circuit or R1
open circuit.
R1 does not
match R2.
Detected
Measurement
for Fault
Primary ADC reading ≈ 0
V regardless of PGA
setting.
Primary ADC reading ≈ 0
V regardless of PGA
setting.
Primary ADC reading =
+full scale, even on the
lowest PGA setting.
Primary ADC reading >
10 mV.
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