TC7106 データシートの表示(PDF) - TelCom Semiconductor Inc => Microchip
部品番号
コンポーネント説明
メーカー
TC7106 Datasheet PDF : 19 Pages
| |||
TC7106
TC7106A
TC7107
TC7107A
PIN DESCRIPTION (Cont.)
Pin No.
Pin No.
40-Pin PDIP 40-Pin PDIP
(Normal) (Reverse)
34
(7)
Symbol
C
+
REF
35
(6)
36
(5)
VR– EF
V
+
REF
37
(4)
Test
38
(3)
39
(2)
40
(1)
OSC3
OSC2
OSC1
3-1/2 DIGIT A/D CONVERTERS
Description
A 0.1µF capacitor is used in most applications. If a large common-
mode
voltage
exists
(for
example,
the
V
–
IN
pin
is
not
at
analog
common), and a 200mV scale is used, a 1µF capacitor is recom-
mended and will hold the roll-over error to 0.5 count.
See pin 36.
The analog input required to generate a full-scale output (1999
counts). Place 100mV between pins 35 and 36 for 199.9mV
full-scale. Place 1V between pins 35 and 36 for 2V full scale. See
paragraph on REFERENCE VOLTAGE.
Lamp test. When pulled HIGH (to V+) all segments will be turned on
and the display should read –1888. It may also be used as a negative
supply for externally-generated decimal points. See paragraph under
TEST for additional information.
See pin 40.
See pin 40.
Pins 40, 39, 38 make up the oscillator section. For a 48kHz clock
(3 readings per section), connect pin 40 to the junction of a 100kΩ
resistor and a 100pF capacitor. The 100kΩ resistor is tied to pin 39
and the 100pF capacitor is tied to pin 38.
GENERAL THEORY OF OPERATION
DUAL SLOPE CONVERSION PRINCIPLES
(All Pin Designations Refer to the 40-Pin DIP)
The TC7106A and TC7107A are dual slope, integrating
analog-to-digital converters. An understanding of the dual
slope conversion technique will aid in following the detailed
operation theory.
The conventional dual slope converter measurement
cycle has two distinct phases:
• Input Signal Integration
• Reference Voltage Integration (Deintegration)
The input signal being converted is integrated for a fixed
time period (TSI). Time is measured by counting clock
pulses. An opposite polarity constant reference voltage is
then integrated until the integrator output voltage returns to
zero. The reference integration time is directly proportional
to the input signal (TRI). (Figure 2A).
In a simple dual slope converter a complete conversion
requires the integrator output to “ramp-up” and “ramp-
down.”
A simple mathematical equation relates the input signal,
reference voltage and integration time:
∫ TSI
1
VRTRI
RC
0 VIN(t)dt = RC
3-188
where:
VR = Reference Voltage
TSI = Signal Integration Time (Fixed)
TRI = Reference Voltage Integration Time (Variable)
For a constant VIN:
VIN = VR TRI
TSI
ANALOG
INPUT
SIGNAL
C
INTEGRATOR
–
+
COMPARATOR
–
+
+/–
REF
VOLTAGE
SWITCH
DRIVER
PHASE
CONTROL
CONTROL
LOGIC
POLARITY CONTROL
CLOCK
DISPLAY
COUNTER
VIN ≈ VFULL SCALE
VIN ≈ 1/2 VFULL SCALE
FIXED
SIGNAL
INTEGRATE
TIME
VARIABLE
REFERENCE
INTEGRATE
TIME
Figure 2A. Basic Dual Slope Converter
TELCOM SEMICONDUCTOR, INC.
Share Link: 