MC145053 Motorola, MC145053 Datasheet - Page 11
MC145053
Manufacturer Part Number
MC145053
Description
10-Bit A/D Converter a Serial Interface
Manufacturer
Motorola
Datasheet
1.MC145053.pdf
(15 pages)
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DESCRIPTION
four analog signals to a microprocessor.
effective means to simplify this type of circuit design. Utilizing
one ADC, four analog inputs are interfaced to a CMOS or
NMOS microprocessor with a serial peripheral interface
(SPI) port. Processors with National Semiconductor’s
MICROWIRE serial port may also be used. Full duplex
operation optimizes throughput for this system.
DIGITAL DESIGN CONSIDERATIONS
reduce power supply size and cost. The NMOS MCUs may
be used if power consumption is not critical. A V DD or V SS
0.1 F bypass capacitor should be closely mounted to the
ADC.
output pin 1 to define when data is ready.
ANALOG DESIGN CONSIDERATIONS
1 k
need for buffer amplifiers. Separate lines connect the V ref
and V AG pins on the ADC with the controllers to provide
isolation from system noise.
output lines may need to be shielded, depending on their
length and electrical environment. This should be verified
during prototyping with an oscilloscope. If shielding is
required, a twisted pair or foil-shielded wire (not coax) is
appropriate for this low frequency application. One wire of
the pair or the shield must be V AG .
MOTOROLA WIRELESS SEMICONDUCTOR
SOLUTIONS DEVICE DATA
This example application of the MC145053 ADC interfaces
Figure 15 illustrates how the MC145053 is used as a cost-
Motorola’s MC68HC05C4 CMOS MCU may be chosen to
The MC145053 has the end-of-conversion (EOC) signal at
Analog signal sources with output impedances of less than
Although not indicated in Figure 15, the V ref and sensor
may be directly interfaced to the ADC, eliminating the
APPLICATIONS INFORMATION
tion shown in Figure 15. However, the reference circuitry
may be simplified by tying V AG to system ground and V ref to
the system’s positive supply. (See Figure 16.)
V ref and V AG pins is recommended. These pins are adjacent
on the ADC package which facilitates mounting the capacitor
very close to the ADC.
SOFTWARE CONSIDERATIONS
four analog inputs, AN0 through AN3, are scanned by read-
ing the analog value of the previously addressed channel
into the MCU and sending the address of the next channel to
be read to the ADC, simultaneously.
version signal (at pin 1) to define the conversion interval.
EOC may be used to generate an interrupt, which is serviced
by reading the serial data from the ADC. The software flow
should then process and format the data.
are two types of offsets involved. In the first type of offset, the
channel information sent to the ADCs is offset by 12 bits.
That is, in the 16-bit stream, only the first 4 bits (4 MSBs)
contain the channel information. The balance of the bits are
don’t cares. This results in 3 don’t-care nibbles, as shown in
Table 2. The second type of offset is in the conversion result
returned from the ADC; this is offset by 6 bits. In the 16-bit
stream, the first 10 bits (10 MSBs) contain the conversion
result. The last 6 bits are zeroes. The hexadecimal result is
shown in the first column of Table 3. The second column
shows the result after the offset is removed by a micro-
processor routine. If the 16-bit format is used, the ADC can
transfer one continuous 16-bit stream or two intermittent 8-bit
streams.
A reference circuit voltage of 5 volts is used for the applica-
A bypass capacitor of approximately 0.22 F across the
The software flow for acquisition is straightforward. The
The designer utilizing the MC145053 has the end-of-con-
When this ADC is used with a 16-bit (2-byte) transfer, there
MC145053
11
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