2002 Microchip Technology Inc.
DS21411B-page 1
TC3402
Features
• 16-bit Resolution at Eight Conversions Per
Second, Adjustable Down to 10-bit Resolution at
512 Conversions Per Second
• 1.8V – 5.5V Operation, Low Power Operating
250
µ
A; Sleep: 0.75
µ
A
• Four True Differential Inputs with Built-in Multiplexer
• microPort™ Serial Bus Requires only two
Interface Lines
• Uses Internal or External Reference
• Automatically Enters Sleep Mode when not in use
Applications
• Consumer Electronics, Thermostats, CO
Monitors, Humidity Meters, Security Sensors
• Embedded Systems, Data Loggers,
Portable Equipment
• Medical Instruments
Device Selection Table
Package Type
General Description
The TC3402 is a low cost, low power analog-to-digital
converter based on Microchip’s Sigma-Delta technol-
ogy. It will perform 16-bit conversions (15-bit plus sign)
at up to eight per second. The TC3402 is optimized for
use as a microcontroller peripheral in low cost, battery
operated systems. A voltage reference is included, or
an external reference can be used.
The TC3402’s 2-wire microPort™ digital interface is
used for starting conversions and for reading out the
data. Driving the SCLK line low starts a conversion.
After the conversion starts, each additional falling edge
(up to six) detected on SCLK for t
4
seconds reduces
the A/D resolution by one bit and cuts conversion time
in half. After a conversion is completed, clocking the
SCLK line puts the MSB through LSB of the resulting
data word onto the SDAT line, much like a shift register.
The part automatically sleeps when not performing a
data conversion.
The TC3402 is available in a 16-Pin PDIP and a 16-Pin
QSOP package.
Part
Number
Package
Temperature
Range
TC3402VPE
16-Pin PDIP (Narrow)
0
°
C to +85
°
C
TC3402VQR
16-Pin QSOP Narrow)
0
°
C to +85
°
C
16-Pin PDIP
16-Pin QSOP
1
16
2
15
3
14
4
13
5
12
6
11
7
10
IN2-
8
9
IN1+
IN1-
REF
IN
GND
A0
V
DD
SDAT
REF
OUT
IN2+
TC3402
SCLK
IN3+
IN3-
A1
IN4+
IN4-
+1.8 Low Power, Quad Input, 16-Bit Sigma-Delta A/D Converter
TC3402
DS21411B-page 2
2002 Microchip Technology Inc.
Typical Application
Functional Block Diagram
TC3402
µ
Controller
SDAT
SCLK
A0
A1
REF
OUT
REF
IN
IN4-
IN4+
IN3+
IN3-
IN2-
IN2+
IN1+
IN1-
I/01
I/02
I/03
I/04
V
BATT
C1
0.1
µF
R3
390
V
DD
V
CC
+
+
_
_
_
+
+
A0
IN2+
IN2-
IN3+
IN3-
SDAT
REFIN
REF
OUT
SCLK
Clock Generator
and Control
Circuitry
Data
Shift
Reg.
Σ – ∆
Modulator
1 of 4
AMux
+
–
+
–
x2
CONV done
CONVCLK
D
Q
SET
TC3402
CLR
1.193V
V
DD
CLK
OUT
Start
Conv.
D
Q
SET
CLR
A1
IN1+
IN1-
+
–
IN4+
IN4-
+
–
GND
2002 Microchip Technology Inc.
DS21411B-page 3
TC3402
1.0
ELECTRICAL
CHARACTERISTICS
Absolute Maximum Ratings*
Supply Voltage ..................................................... 6.0V
Input Voltage ................ (GND – 0.3V) to (V
DD
+ 0.3V)
Operating Temperature Range ................. 0°C to 85°C
Storage Temperature ........................ -65°C to +150°C
*Stresses above those listed under "Absolute Maximum Rat-
ings" may cause permanent damage to the device. These are
stress ratings only and functional operation of the device at
these or any other conditions above those indicated in the
operation sections of the specifications is not implied. Expo-
sure to Absolute Maximum Rating conditions for extended
periods may affect device reliability.
TC3402 DC ELECTRICAL SPECIFICATIONS
Electrical Characteristics: T
A
= 25°C and V
DD
= 2.7V, unless otherwise specified. Boldface type specifications apply for
temperatures of 0°C to 85°C. V
REF
= 1.25V, Internal Clock Frequency = 520kHz
Symbol
Parameter
Min
Typ
Max
Unit
Test Conditions
Power Supply
V
DD
Supply Voltage
1.8
—
5.5
V
I
DD
Supply Current, During Data Conversion
—
250
—
µ
A
I
DD
SLEEP
Supply Current, Sleep Mode
—
0.75
1.5
µ
A
T
A
= +25°C
—
1.8
3.0
µ
A
Accuracy (Differential Inputs)
RES
Resolution
—
16
—
Bits
INL
Integral Non-Linearity
—
.0038
—
%FSR
V
DD
= 2.7V
V
OS
Offset Error
—
—
±0.9
%FSR
IN+, IN- = 0V
V
NOISE
Referred to input
—
60
—
µ
Vrms
CMR
Common Mode Rejection
—
75
—
dB
At DC
FSE
Full Scale Error
—
0.4%
—
%FS
PSRR
Power Supply Rejection Ratio
—
75
—
dB
V
DD
= 2.5V to 3.5V
IN+, IN-
V
IN
±
Differential Input Voltage
—
—
V
DD
V
Note 1
Absolute Voltage Range on INn+, INn- INn
GND
—
V
DD
V
Input Bias Current
—
1
100
nA
C
IN
Input Sampling Capacitance
—
2
—
pF
R
IN
Differential Input Resistance
—
2.0
—
M
Ω
Note 2
REF
IN
, REF
OUT
V
REF
REF
IN
Voltage Range
0
—
1.25
V
I
REF
REF
IN
Input Current
—
1
—
µA
V
REF
OUT
REF
OUT
Voltage
—
1.193
—
V
REF
SINK
REF
OUT
Current Sink Capability
—
10
—
µ
A
REF
SRC
REF
OUT
Current Source Capability
300
—
—
µ
A
Note
1:
Differential input voltage defined as (V
IN
+ – V
IN
-).
2:
Resistance from INn+ to INn- or INn to GND.
3:
@ V
DD
= 1.8V, I
SOURCE
≤
200
µ
A.
TC3402
DS21411B-page 4
2002 Microchip Technology Inc.
TC3402 AC ELECTRICAL SPECIFICATIONS
SCLK, A0, A1
V
IL
Input Low Voltage
—
—
0.3 x V
DD
V
V
IH
Input High Voltage
0.7 x V
DD
—
—
V
I
LEAK
Leakage Current
—
1
—
µ
A
SDAT
V
OL
Output Low Voltage
—
—
0.4
V
I
OL
= 1.5mA
V
OH
Output High Voltage (SDAT)
0.9 x V
DD
—
—
V
I
SOURCE
= 400
µ
A
(Note 3)
Electrical Characteristics: T
A
= 25°C and V
DD
= 2.7V, unless otherwise specified. Boldface type specifications apply for
temperatures of 0°C to 85°C. V
REF
= 1.25V, Internal Clock Frequency = 520kHz
Symbol
Parameter
Min
Typ
Max
Unit
Test Conditions
t
1
Resolution Reduction Clock Width
1
—
—
µsec
Width of SCLK (Negative)
t
2
Resolution Reduction Clock Width
1
—
—
µsec
Width of SCLK (Positive)
t
3
Conversion Time (15-bit Plus Sign)
—
125
—
msec
16-bit Conversion, T
A
= 25°C (Note 1)
Conversion Time (14-bit Plus Sign)
—
t
3
/2.0
—
msec
15-bit Conversion
Conversion Time (13-bit Plus Sign)
—
t
3
/4.0
—
msec
14-bit Conversion
Conversion Time (12-bit Plus Sign)
—
t
3
/7.8
—
msec
13-bit Conversion
Conversion Time (11-bit Plus Sign)
—
t
3
/15.1
—
msec
12-bit Conversion
Conversion Time (10-bit Plus Sign)
—
t
3
/28.6
—
msec
11-bit Conversion
Conversion Time (9-bit Plus Sign)
—
t
3
/51.4
—
msec
10-bit Conversion
t
4
Resolution Reduction Window
—
t
3
/85.7
—
msec
Width of SCLK
t
5
SCLK to Data Valid
1000
—
—
nsec
SCLK Falling Edge to SDAT Valid
t
6
Address Setup
0
—
—
nsec
Address Valid to SCLK
t
7
Address Hold
1000
—
—
nsec
SCLK to Address Valid Hold
t
8
Acknowledge Delay
—
—
1000
nsec
SCLK to SDAT Delay
Note
1:
Nominal temperature drift is -2830ppm/C° for temperature less than 25°C and -1340ppm/°C for temperatures
greater than 25°C
.
TC3402 DC ELECTRICAL SPECIFICATIONS (CONTINUED)
Electrical Characteristics: T
A
= 25°C and V
DD
= 2.7V, unless otherwise specified. Boldface type specifications apply for
temperatures of 0°C to 85°C. V
REF
= 1.25V, Internal Clock Frequency = 520kHz
Symbol
Parameter
Min
Typ
Max
Unit
Test Conditions
Note
1:
Differential input voltage defined as (V
IN
+ – V
IN
-).
2:
Resistance from INn+ to INn- or INn to GND.
3:
@ V
DD
= 1.8V, I
SOURCE
≤
200
µ
A.
2002 Microchip Technology Inc.
DS21411B-page 5
TC3402
2.0
PIN DESCRIPTIONS
The descriptions of the pins are listed in Table 2-1.
TABLE 2-1:
PIN FUNCTION TABLE
Pin No.
(16-Pin PDIP)
(16-Pin QSOP)
Symbol
Description
1
IN1+
Analog Input. This is the positive terminal of a true differential input consisting of IN1+ and IN1-.
V
IN1
= (IN1+ – IN-). See Section 1.0, Electrical Characteristics.
2
IN1-
Analog Input. This is the negative terminal of a true differential input consisting of IN1+ and IN1-.
V
IN1
= (IN+ – IN-) IN1- can swing to, but not below, ground. See Section 1.0, Electrical Characteristics.
3
IN2+
Analog Input. This is the positive terminal of a true differential input consisting of IN2+ and IN2-.
V
IN2
= (IN2+ – IN-). (See Section 1.0, Electrical Characteristics.)
4
IN2-
Analog Input. This is the negative terminal of a true differential input consisting of IN2+ and N2-.
V
IN2
= (IN+ – IN-) IN2- can swing to, but not below, ground. See Section 1.0, Electrical Characteristics.
5
IN3+
Analog Input. This is the positive terminal of a true differential input consisting of IN3+ and IN3-.
V
IN3
= (IN3+ – IN-). See Section 1.0, Electrical Characteristics.
6
IN3-
Analog Input. This is the negative terminal of a true differential input consisting of IN3+ and IN3-.
V
IN3
= (IN+ – IN-) IN1- can swing to, but not below, ground. See Section 1.0, Electrical Characteristics.
7
REF
IN
Analog Input. The converter’s reference voltage is the differential between this pin and ground times
two. It may be tied directly to REF
OUT
or scaled using a resistor divider. Any user supplied reference
voltage less than 1.25V may be used in place of REF
OUT
.
8
GND
Ground Terminal.
9
REF
OUT
Analog Output. The internal reference connects to this pin. It may be scaled externally and tied to the
REF
IN
input to provide the converter’s reference voltage. Care must be taken in connecting external
circuitry to this pin.
10
SDAT
Digital Output (push-pull). This is the microPort™ serial data output. SDAT is driven low while the
TC3402 is converting data, effectively providing a “busy” signal. After the conversion is complete,
every high to low transition on the SCLK pin puts a bit from the resulting data word on the SDAT pin
(from MSB to LSB).
11
IN4-
Analog Input. This is the negative terminal of a true differential input consisting of IN4+ and IN4-.
V
IN4
= (IN+ – IN-) IN4- can swing to, but not below, ground. See Section 1.0, Electrical Characteristics.
12
IN4+
Analog Input. This is the positive terminal of a true differential input consisting of IN4+ and IN4-.
V
IN4
= (IN4+ – IN-). See Section 1.0, Electrical Characteristics.
13
A1
Digital Input. Controls analog multiplexer in conjunction with A0 to select one of the four Input
channels. This address is latched at the falling edge of the SCLK, which starts an A/D conversion.
A1, A0 = 00 = Input 1; 01 = Input 2; 10 = Input 3; 11 = Input 4.
14
A0
Digital Input. Controls analog multiplexer in conjunction with A1 to selec one of four Input
channels. This address is latched at the falling edge of the SCLK, which starts an A/D conversion.
A1, A0 = 00 = Input 1; 01 = Input 2; 10 = Input 3; 11 = Input 4.
15
SCLK
Digital Input. This is the microPort™ serial clock input. The TC3402 comes out of Sleep mode and a
conversion cycle begins when this pin is driven low. After the conversion starts, each additional falling
edge (up to six) detected on SCLK for t
4
seconds reduces the A/D resolution by one bit. When the
conversion is complete, the data word can be shifted out on the SDAT pin by clocking the SCLK pin.
16
V
DD
Power Supply Input.
TC3402
DS21411B-page 6
2002 Microchip Technology Inc.
3.0
DETAILED DESCRIPTION
The TC3402 has a 16-bit sigma-delta A/D converter. It
has four differential inputs and an analog multiplexer,
See the Typical Application circuit and the Functional
Block diagram. The key components of the TC3402 are
described below.
Also refer to Figure 3-4, A/D Operational Flowchart and
the Timing Diagrams, Figure 3-1, Figure 3-2 and
Figure 3-3.
3.1
A/D Converter Operation
When the TC3402 is not converting, it is in Sleep mode
with both the SCLK and SDAT lines high. An A/D
conversion is initiated by a high to low transition on the
SCLK line, at which time the internal clock of the
TC3402 is started and the address value (A0 and A1)
is internally latched. The address value steers the
analog multiplexer to select the input channel to be
converted. Each additional high to low transition of
SCLK (following the initial SCLK falling edge) during
the time interval t
4
, will decrement the conversion
resolution by one bit and reduce the conversion time by
one half. The time interval t
4
is referred to as the
resolution reduction window. The minimum conversion
resolution is 10-bits so any more than 6 SCLK
transitions during t
4
will be ignored.
After each high to low transition of SCLK, in the t
4
interval, the SDAT output is driven high by the TC3402
to acknowledge that the resolution has been decre-
mented. When the SCLK returns high or the t
4
interval
ends, the SDAT line returns low (see Figure 3-2). When
the conversion is complete SDAT is driven high. The
TC3402 now enters Sleep mode and the conversion
value can be read as a serial data word on the SDAT
line.
3.2
Reading the Data Word
After the conversion is complete and SDAT goes high,
the conversion value can be clocked serially onto the
SDAT line by high to low transitions of the SCLK. The
data word is in two’s compliment format with the sign bit
clocked onto the SDAT line, first followed by the MSB
and ending in the LSB. For a 16-bit conversion the data
word would consist of a sign bit followed by 15 magni-
tude bits, Table 3-1 shows the data word versus input
voltage for a 16-bit conversion. Note that the full scale
input voltage range is ±(2 REF
IN
– 1LSB). When
REF
OUT
is fed back directly to REF
IN
, an LSB is 73
µ
V
for a 16-bit conversion, as REF
OUT
is typically 1.193V.
Figure 3-3 shows typical SCLK and SDAT waveforms
for 16, 12 and 10-bit conversions. Note that any com-
plete convert and read cycle requires 17 negative edge
clock pulses. The first is the convert command. Then,
up to six of these can occur in the resolution reduction
window, t
4
, to decrement resolution. The remaining
pulses clock out the conversion data word.
TABLE 3-1:
DATA CONVERSION WORD
VS. VOLTAGE INPUT
(REF
IN
= 1.193V)
The SCLK input has a filter which rejects any positive
or negative pulse of width less than 50nsec to reduce
noise. The rejection width of this pulse can vary
between 50nsec and 750nsec depending on process-
ing parameters and supply voltage.
Figure 3-1
and
Table 3-2
show
information
for
determining the mode of operation for the TC3402 part
by recording the value of SDAT for SCLK in a high, then
low, then high state. For example, if SCLK goes
through a 1-0-1 transition and the corresponding
values of SDAT are 1-1-0, then the SCLK falling edge
started a new data conversion. A 0-1-0 for SDAT would
have indicated a resolution reduction had occurred.
This is useful if the microcontroller has a Watchdog
Reset or otherwise loses track of where the TC3402 is
in the conversion and data readout sequence. The
microcontroller can simply transition SCLK until it
“finds” a Start Conversion condition.
FIGURE 3-1:
SCLK, SDAT LOGIC
STATE DIAGRAM
TABLE 3-2:
SCLK, SDAT LOGIC STATE
*
Note: The code X00 has a dual meaning: Data Transfer or
Busy converting. To avoid confusion, the user should
send only the required number of pulses for the
desired resolution, then wait for SDAT to rise to 1,
indicating conversion is complete before clocking
SCLK again to read out data bits.
Data Word
INn+ – INn- (Volts)
0111 1111 1111 1111
2.38596 (Positive Full Scale)
0000 0000 0000 0001
72.8 E -6
0000 0000 0000 0000
0
1111 1111 1111 1111
-72.8 E -6
1000 0000 0000 0001
-2.38596 (Negative Full Scale)
1000 0000 0000 0000
Reserved Code
A
B
C
Status
1
1
0
Start Conversion
0
1
0
Resolution Reduction
x
1
1
Data Transfer
x
0
0
Data Transfer or Busy*
SCLK
SDAT
A
B
C
2002 Microchip Technology Inc.
DS21411B-page 7
TC3402
FIGURE 3-2:
CONVERSION AND DATA OUTPUT TIMING
FIGURE 3-3:
SCLK AND SDAT WAVEFORMS FOR 16, 12 AND 10-BIT CONVERSIONS
SCLK
SDAT
t
4
t
1
t
2
t3
t
8
t
8
D
N-1
D
N-2
D
0
(LSB)
D
N
(MSB)
t5
Data Conversion
Complete
Sleep
Mode
A0, A1
Start Conversion and Resolution Control Timing
Data Output Timing
t
6
t
7
SCLK
SDAT
t
3
a
16-bit Data Conversion,
Data Word A5A5h
SCLK
SDAT
16-bit Data Conversion, Long Start Pulse,
Data Word 5A5Ah
> t
3
a
Data Conversion
Complete
SCLK
SDAT
12-bit Conversion,
Data Word = AB3h
SCLK
SDAT
t
3
g
10-bit Conversion with "Extra"
Data Reduction Clocks, Data Word = 3A4h
Data Conversion
Complete
Data Conversion
Complete
Data Conversion
Complete
t
3
e
< t
4
< t
4
TC3402
DS21411B-page 8
2002 Microchip Technology Inc.
FIGURE 3-4:
A/D OPERATIONAL FLOWCHART
Yes
No
Yes
No
Yes
Yes
Yes
No
No
No
Yes
Yes
No
Yes
No
POR
Sleep
SDAT = High
SCLK
Hgh to Low?
Power Up Analog,
Start CONVCLK (= 0),
Start Conversion,
Resolution = 2m
(m = 16), Latch Input
Channel Address (if applicable).
SCLK
Low to High
transition?
SDAT = Low
CONVCLK
< 2
9
?
SCLK
High to Low?
A/D
Resolution
> 2
10
?
Reduce A/D
Resolution by 1-bit
(m = m – 1);
SDAT = High
SDAT = Low
CONVCLK = 2m?
(Conversion Done?)
Power Down Analog,
Conversion Complete,
SDAT = High
SCLK
High to Low?
SDAT = Dm;
m = m – 1
m
≥ 0?
SDAT = High
Internal Reset
Sleep
No
2002 Microchip Technology Inc.
DS21411B-page 9
TC3402
4.0
PACKAGING INFORMATION
4.1
Package Marking Information
Package marking data not available at this time.
4.2
Taping Forms
Component Taping Orientation for 16-Pin QSOP (Narrow) Devices
PIN 1
User Direction of Feed
Standard Reel Component Orientation
for TR Suffix Device
W
P
Package
Carrier Width (W)
Pitch (P)
Part Per Full Reel
Reel Size
16-Pin QSOP (N)
12 mm
8 mm
2500
13 in
Carrier Tape, Reel Size, Number of Components Per Reel and Reel Size
TC3402
DS21411B-page 10
2002 Microchip Technology Inc.
4.3
Package Dimensions
1
.110 (2.79)
.090 (2.29)
.022 (0.56)
.015 (0.38)
.150 (3.81)
.115 (2.92)
.770 (19.56)
.740 (18.80)
.045 (1.14)
.030 (0.76)
.070 (1.78)
.045 (1.14)
.310 (7.87)
.290 (7.37)
.040 (1.02)
.020 (0.51)
.270 (6.86)
.240 (6.10)
.200 (5.08)
.140 (3.56)
.014 (0.36)
.008 (0.20)
.400 (10.16)
.310 (7.87)
16-Pin PDIP (Narrow)
PIN 1
10
° MAX.
Dimensions: inches (mm)
8
°
MAX.
PIN 1
.157 (3.99)
.150 (3.81)
.196 (4.98)
.189 (4.80)
.012 (0.31)
.008 (0.21)
.010 (0.25)
.004 (0.10)
.069 (1.75)
.053 (1.35)
.010 (0.25)
.007 (0.19)
.050 (1.27)
.016 (0.41)
.244 (6.20)
.228 (5.80)
.025
(0.635)
TYP.
16-Pin QSOP (Narrow)
Dimensions: inches (mm)