TC500/A/510/514
3.0
PIN DESCRIPTIONS
PIN FUNCTION TABLE
TC510
TC514
PDIP, SOIC
2
Not Used
3
4
5
C
INT
V
SS
C
AZ
BUF
ACOM
Integrator output. Integrator capacitor connection.
Negative power supply input (TC500/TC500A only).
Auto-zero input. The auto-zero capacitor connection.
Buffer output. The Integrator capacitor connection.
This pin is grounded in most applications. It is recommended that
ACOM and the input common pin (Ve
n
- or CH
n
-) be within the analog
Common Mode Range (CMR).
Input. Negative reference capacitor connection.
Input. Positive reference capacitor connection.
Input. External voltage reference (-) connection.
Input. External voltage reference (+) connection.
Negative analog input.
Positive analog input.
Input. Converter phase control MSB. (See input B.)
Input. Converter phase control LSB. The states of A, B place the
TC5XX
in one of four required phases. A conversion is complete
when all four phases have been executed:
Phase control input pins: AB = 00: Integrator zero
01: Auto-zero
10: Integrate
11: De-integrate
The descriptions of the pins are listed in
TABLE 3-1:
TC500,
TC500A
Symbol
Function
CERDIP,
PDIP, SOIC
PDIP, SOIC
1
2
3
4
5
2
Not Used
3
4
5
6
7
8
9
10
11
12
13
6
7
8
9
15
16
18
17
6
7
8
9
Not Used
Not Used
22
21
C
REF
-
C
REF
+
V
REF
-
V
REF
+
V
IN
-
V
IN
+
A
B
14
19
23
CMPTR OUT Zero crossing comparator output. CMPTR is high during the
integration phase when a positive input voltage is being integrated
and is low when a negative input voltage is being integrated. A high-
to-low transition on CMPTR signals the processor that the De-
integrate phase is completed. CMPTR is undefined during the auto-
zero phase. It should be monitored to time the integrator zero phase.
DGND
V
DD
CAP+
CAP-
V
OUT
-
Input. Digital ground.
Input. Power supply positive connection.
Input. Negative power supply converter capacitor (+) connection.
Input. Negative power supply converter capacitor (-) connection.
Output. Negative power supply converter output and reservoir
capacitor connection. This output can be used to power other
devices in the circuit requiring a negative bias voltage.
Oscillator control input. The negative power supply converter
normally runs at a frequency of 100 kHz. The converter oscillator
frequency can be slowed down (to reduce quiescent current) by
connecting an external capacitor between this pin and V
DD
(see
Positive analog input pin. MUX channel 1.
Negative analog input pin. MUX channel 1.
Positive analog input pin. MUX channel 2.
Negative analog input pin. MUX channel 2.
Positive analog input pin. MUX channel 3.
Negative analog input pin. MUX channel 3.
Positive analog input pin. MUX channel 4.
Negative analog input pin. MUX channel 4
Multiplexer input channel select input LSB (see A1).
15
16
—
—
—
23
21
22
24
1
27
25
26
28
1
—
20
24
OSC
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
—
18
13
17
12
16
11
15
10
20
CH1+
CH1-
CH2+
CH2-
CH3+
CH3-
CH4+
CH4-
A0
©
2008 Microchip Technology Inc.
DS21428E-page 7
MICROCHIP [ MICROCHIP TECHNOLOGY ]
