ETC DEM-ADS7812

®
DEM-ADS7812/13P
EVALUATION FIXTURE
FEATURES
DESCRIPTION
● COMPUTER INTERFACE
The DEM-ADS7812/13P evaluation fixture is designed
for quick evaluation of Burr-Brown’s ADS7812 and
ADS7813. Breadboard areas are provided with
optional bipolar power supply connections to assist in
the evaluation of various driver amplifiers or multiplexed input circuits to the input of the analog-todigital converter. Additionally, the demonstration
fixture has flexibility in its clocking circuit to allow
for various fixed conversion rates. To further enhance
the clocking network, an external off board clock can
be connected through the BNC connector, P5. The
DEM-ADS7812/13P has been designed to accommodate stand-alone operation.
● STAND-ALONE CAPABILITY
● BREADBOARD AREAS
● INPUT RANGE EASILY CONFIGURED
FOR APPLICATION
APPLICATIONS
● TRANSDUCER INTERFACE
● MULTIPLEXED DAS
International Airport Industrial Park • Mailing Address: PO Box 11400, Tucson, AZ 85734 • Street Address: 6730 S. Tucson Blvd., Tucson, AZ 85706 • Tel: (520) 746-1111 • Twx: 910-952-1111
Internet: http://www.burr-brown.com/ • FAXLine: (800) 548-6133 (US/Canada Only) • Cable: BBRCORP • Telex: 066-6491 • FAX: (520) 889-1510 • Immediate Product Info: (800) 548-6132
®
© 1997 Burr-Brown Corporation
LI-498A
1
Printed in U.S.A. April, 1998
DEM-ADS7812/13P
GETTING STARTED
The user must provide power to the analog input portion of
the board as well as power to the DUT and digital network.
P3 should be powered with ±15V which provides power to
U1. P4 should be powered with +5V, which provides power
to the DUT (X1), and digital network, U2, U3, U4, U5, and
U6. The ground connection of both power connectors are
tied together with the ground plane of the board. The factory
set position of the jumpers are shown below.
J1 = not installed
J2 = A
J3, J4, J8, J12, J14 = open
J5 = A
J6 = C
J7 = B
J10, J13 = installed
J9, J15 = short
All of the jumper functions for the DEM-ADS7812/13P are
shown in Table I. These jumpers affect the circuit’s analog
front end, clocking circuit, and the shut down enhancement
circuit.
Used to configure the input analog source to the
driver amplifier (U1). See Table III.
J3, J4
Solderable power supply options for the driver
amplifier, U1.
J5, J6, J7
Used to configure the analog input range of the A/D
converter (DUT). See Table II.
J8, J9, J14, J15
Solderable connection options to enhance the shut
down capability of the A/D converter (DUT).
J10, J13
CONNECT
R2 IN
TO
CONNECT
R3 IN
TO
±10V
J5-A (VIN)
J6-C (BUF)
J7-B (GND)
45.7k
0.3125 to
2.8125V
J5-A (VIN)
J6-A (VIN)
J7-A (VIN)
> 10M
±5V
J5-B (GND)
J6-C (BUF)
J7-A (VIN)
26.7k
0V to 10V
J5-C (BUF)
J6-B (GND)
J7-A (VIN)
26.7k
0V to 4V
J5-C (BUF)
J6-A (VIN)
J7-B (GND)
21.3k
±3.33V
J5-A (VIN)
J6-C (BUF)
J7-A (VIN)
21.3k
0.5V to 4.5V
J5-B (GND)
J6-A (VIN)
J7-B (GND)
21.3k
E3
Used to configure the clock generation circuit. See
Table IV.
J12
A/D INPUT
IMPEDANCE
(Ω)
The combination of J1, J2, R3, R4, and C17 are used to
configure the front-end amplifier, U1. Figure 1 shows the
analog gain options available for this board. The various
configurations for this input stage are summarized in Table
III. R5 is used to isolate the output of the amplifier from the
input of the A/D converter. The factory setting for R5 is 0Ω,
however, an appropriate value for R5 could also be 50Ω.
JUMPER FUNCTION
J1, J2
CONNECT
R1 IN
TO
TABLE II. These are the Jumper Settings (J5, J6 and J7) for
the Most Common Input Ranges to the ADS7812
and ADS7813. Note that all jumper configurations
on the DEM-ADS7812/13P board are acceptable.
Refer to Table IV of the ADS7812 or ADS7813
product data sheets for more details concerning
other input range options. Configured for CIB testing.
DEM-ADS7812/13P BOARD DESCRIPTION
JUMPER
NAME
ANALOG
INPUT
RANGE
E7
B
AIN
P2
Determines serial clock source for serial I/O.
TABLE I. Description of Jumpers on DEM-ADS7812/13P
Demonstration Fixture.
A
J1
A
J2
E1
R3
E2
R4
C17
E4
E8
U1
E5
R5
E6
To DUT
ANA
B
ANALOG INPUT CONFIGURATIONS
Input Range: J5, J6, J7—The input range of the A/D
converter is configured using J5, J6, and J7. In general, all
positions that are labeled “A” will connect the corresponding input pin of the A/D converter to the analog input. All
positions that are labeled “B” of jumpers J5, J6, and J7 will
connect the corresponding input pin of the A/D converter to
“GND”. Finally, all positions that are labeled “C” will
connect the corresponding input pin of the A/D converter to
“BUF”. A quick look-up table for the more common analog
input ranges is shown in Table II. A complete list is given in
Table IV of either the ADS7812 or the ADS7813 data sheet.
FIGURE 1. The Analog Input Section of the DEM-ADS7812/13P
Demonstration Fixture.
J2
ANALOG GAIN (V/V)
Inverting
Configuration
A
B
ANA/AIN = –R3 /R4
Non-inverting
Configuration
B
A
ANA/AIN = 1 + R3/R4
TABLE III. The Gain of the Amplifier, U1, can be Configured Negative or Positive with the Above Jumper
Settings. R3, R 4, R 5 and C 17 can be easily
changed by using the low-profile sockets, labeled
as E1 - E8.
Analog Input Driver Amplifier : J1, J2, J3, J4—J1 and J2
can be used to configure the on board amplifier in an
inverting or non-inverting gain. The values of R3, R4, R5,
and C17 are interchangeable by using the sockets provided,
E1 through E8. J3 and J4 are jumpers that can be shorted
with solder to allow for alternative power supply configurations for the amplifier. All of these jumpers and components
allow for a variety of configurations for the front-end analog
driving amplifier.
An input signal can be connected to the circuit using the
coax connector, P2 (AIN). The breadboard is also connected
to AIN. Additionally, the breadboard ANA bus bypasses the
operational amplifier, U1, completely to allow for custom
driver circuits to be built on the breadboard.
®
DEM-ADS7812/13P
J1
2
The power supply to the amplifier, U1, is supplied from a
different connector (P3) than the power supply (P4) to the
A/D converter, X1 (DUT). This is done to allow for maximum flexibility. In addition, an alternative operational amplifier power supply connection is possible using J3 and J4.
These two jumpers, as with J14, J15, J8 and J9 (discussed
later) are solder options. In the case with J3 and J4 the
amplifier’s positive power supply can easily be attached to
pins 7 and 8 by connecting the solder switch, J3. The
negative supply can be connected to both pins 4 and 5 of the
amplifier is desired by connecting the solder switch, J4. This
option is useful if the operation amplifier in the U1 socket
has an alternative power supply connection with the positive
supply connected to pins 7 and 8 and the negative supply
connected to pins 4 and 5.
connected to CAP and REF, C3, C4, and C16, will begin to
discharge. When the power-down mode is exited, these
capacitors must be allowed to recharge and settle to a 16-bit
level. When the P-Channel, HEXFET Power MOSFET, U6,
(IRF7604) is included in the circuit (available on request),
the power up time can be significantly reduced. This function is enabled and disabled according to the settings specified in Table VII.
P1 PIN NUMBER
PIN DESCRIPTION
All Even Pins
Ground
39
Power-down mode pin, to X1 (DUT) pin 15
31
BUSY, connected to X1 (DUT) pin 14
29
CS (Chip Select), connected to X1 (DUT) pin 13
25
EXT/INT (External or internal DATACLK pin.
Selects the source of the synchronous clock for
serial data), connected to X1 (DUT) pin 11
23
DATA (Serial data out), connected to X1 (DUT)
pin 10
21
DATACLK, connected to X1 (DUT) pin 9
7
CONV (or system clock)
DIGITAL OUTPUT CONFIGURATIONS
Clock Network : J13, J10, P5—The convert command to
the A/D converter is provided through one of two paths. The
first path is from the EXT CONV connector, (P5) and the
second path is from the clock generator network; U2, U3,
and U4. The jumper configuration is shown in Table IV. The
on board clock generator network divides a 16MHz oscillator signal (U2) to 40kHz at J10. 40kHz is the recommended
maximum throughput rate for the ADS7812 and ADS7813.
Slower clock signals can be generated by changing the
oscillator chip, U2 or by using an external clock source
through P5. The AND gate, implemented with U5, insures
that the timing between BUSY and CONV (t4, per product
data sheet) is not violated.
CLOCK OPTION
J10
TABLE V. External Digital Interface Connector, P1 Pin
Description.
J12
No Jumper
No Jumper
On Board Clock
Connected
Connected
Not installed
DUT EXT/INT is LOW. Synchronous clock for serial
data is derived from DUT internal conversion clock.
Installed
DUT EXT/INT is HIGH. Synchronous clock for
serial data is derived from P1-21 external connector.
TABLE VI. Serial Clock Source and the Setting for J12.
J13
External Clock (P5)
DESCRIPTION
DESIRED
OPERATION
TABLE IV. Jumper Configuration of Clock Options on the
DEM-ADS7812/13P Demonstration Fixture.
External Digital Interface—All critical digital lines are
connected to the 25 x 2 pin connector, P1 (see Table V). This
connector is designed to interface to Burr-Brown’s Computer Interface Board, DEM-CIB. The DEM-CIB and accompanying Windows compatible program allow the performance of the ADS7812 and ADS7813 to be evaluated
directly from a PC. If an off board clock provides the
synchronous clock for serial I/O, then jumper J12 should be
installed (see Table VI).
J8
J9
J14
J15
Unenhanced
Power-Down
Mode
No Connect
Connected
with Solder
Switch
No Connect
Connected
With Solder
Switch
Enhanced
Power-Down
Mode
Connected
with Solder
Switch
No Connect
Connected
with Solder
Switch
No Connect
TABLE VII. Jumper Solder Instructions for Standard PowerDown Operation (unenhanced) and Accelerated
Power-Down Operation (enhanced) for the
ADS7812 and ADS7813. “No connect” implies
there is no solder switch connecting both pads
of the jumper. “Connected with solder switch”
requires that the user apply enough solder to short
both pads of the jumper.
Additionally, the user of the DEM-ADS7812/13P can use
the board in a stand-alone mode, using P1 as the interface
connection to a user designed interface.
POWER SAVING FEATURE
The ADS7812 and ADS7813 has a power-down mode that
is activated by taking CONV LOW and the PWRD HIGH.
This will power down all of the analog circuitry including
the reference. While in the power-down mode, the capacitors
®
3
DEM-ADS7812/13P
PART IDENTIFIER
QUANTITY
PART NUMBER
X1
1
ADS7813PB
DUT, Low Power, Serial 16-Bit Sampling A/D Converter, Burr-Brown
DESCRIPTION
U1
1
OPA627BP
Precision High-Speed DiFET® Op Amp, Burr-Brown
U6
1
IRF7604
U5
1
74HC08N(1)
U3
1
74AC11074N(1)
Dual D-Type Flip Flop, TI
U2
1
CTX116-ND(1)
16MHz Oscillator, Digi-Key (CTS)
U4
1
74LS390N(1)
R3
1
RN55C75R0F(1)
R5
1
0.0QBK-ND(1)
P-Channel, HEXFET Power MOSFET, International Rectifier
(Available on Request from Factory)
Quad 2-Input, AND Gate, TI
Dual Decade Counter, 4-Bit, TI
Resistor, 75Ω, 0.125Ω, 1%, Metal-film
Resistor, 0Ω, Yageo (Digi-Key part number)
R4
—
None Installed
C17
—
None Installed
1
RN55C1003F(1)
Resistor, 100kΩ, 0.125Ω, 1%, Metal-film
R2
1
RN55C1002F(1)
Resistor, 10kΩ, 0.125Ω, 1%, Metal-film
C3, C7
2
T350A105K035AS(1)
C5, C8, C16
3
CK05BX103K(1)
Cap, 0.01µF, X7R, 100V, 10%, Ceramic
C1, C2, C9 - C12
6
CK05BX104K(1)
Cap, 0.1µF, 50V, 10%, Ceramic X7R, Kemet
C4, C5, C13 - C15
5
T350B225K025AS(1)
Cap, 2.2µF, 25V, 10%, Tantalum, Dipped/Radial Kemet
P1
1
IDH-50LP-SR3-TG(1)
Robinson Nugent, Right Angle, 25 x 2
P2, P5
2
KC-79-274-M06(1)
P4
1
31165102(1)
2-Pin Term Block, 3.5mm Centers, RIACON Electronics
P3
1
31165103(1)
3-Pin Term Block, 3.5mm Centers, RIACON Electronics
J5 - J7
3
TSW-103-07-T-D(1)
Jumper, SAMTEC, 2 x 3 Terminal Strip
J1 - J2
2
TSW-102-07-T-D(1)
Jumper, SAMTEC, 2 x 2 Terminal Strip
J10, J12, J13
3
TSW-101-07-T-D(1)
Jumper, SAMTEC, 2 x 1 Terminal Strip
TP1 - TP6, TP8
7
HD411-2
X1 Socket
1
AG-516-11-DES
DUT Socket, 16-Pin DIP, Augat
U1 Socket
1
AG-508-11-DES
Op Amp Socket, 8-pin DIP, Augat
U2 Socket
1
1107741
R1
Cap, 1µF, 35V, 10%, Tantalum, Diped/Radial
Connector BNC, PCB Mount, King
Test Point, 0.125 Pad, 0.093 Drill, USECO 1280B
Aries, 14-pin Oscillator Socket
E1 - E8
8
AMP50863-5
RB1, RB2, RB3, RB4, RB5
5
90F1533
Rubber Feet, Newark
J1, J2, J5 - J7, J10, J12, J13 Tops
8
SNT-100-BK-T-H
Jumper Tops, Samtec
CR3
1
SA5.0AGICT-ND(1)
5.0V Transient Voltage Suppressor, DO-204AC, Digi-Key
CR1, CR2
2
SA15AGICT-ND(1)
15V Transient Voltage Suppressor, DO-204AC, Digi-Key
Bare PC Board
1
A2245
Sample
1
ADS7812P
DEM-ADS7812/13P, Burr-Brown
NOTE: (1) Substitutions Allowed.
TABLE VIII. Parts List for the DEM-ADS7812/13P.
®
DEM-ADS7812/13P
“E” Point 0.062 Drill, Resistor Sockets, Augat, Hotlite Socket .0
4
DUT, Low Power Serial 14-Bit Sampling A/D Converter, Burr-Brown.
FIGURE 2. Circuit Diagram of the DEM-ADS7812/13P Demonstration Fixture.
5
DEM-ADS7812/13P
®
P5
BB10
BB9
BB8
BB7
BB2
BB1
AIN
P2
J13
14
BB6
BB3
7
B
A
+15V
+
C13
2.2µF
16MHz
E2
C9
0.10µF
J2
R4
8
U2
CTX116-ND
B
EXT CONV
+5V
REF
ANA
AIN
A
J1
E1
+15V
–15V
4
C1
0.01µF
7 Out V+
U1
6
J3
CK
D
CR1
2
3
8
9
P3
P3
CK
D
1/2
74AC11074N
14
13
1/2
74AC11074N
CLR
10
U3
PR
7
CLR
12
U3
PR
1
C2
J4
10pF
5 Out V–
OPA627AP
8
VCLK
3
2
E4
75Ω Installed
R3
Q
Q
Q
Q
5
6
3
2
C10
0.10µF
BB4
C17 Not Installed
E7 10pF E8
E3
–15V
E5
QD
CR2
1
1/2
74HC390N
CLR
QB
QC
CKB
QA
U4
CKA
1/2
74HC390N
QD
QC
U4
CLR
QB
QA
J7
P3
7
6
5
3
9
10
11
13
C
B
J7
C
J6
A
B
J6
J7
A
C
J6
B
J5
A
J5
J5
CKB
CKA
C14
+ 2.2µF
2
4
1
14
12
15
0Ω Installed
R5 E6
BB5
TP6
+
+5V
C3
1µF
J9
J8
+
J10
C15
2.2µF
U4
C11
0.10µF
VCLK
C16 +
0.01µF
CR3
2
1
U5
C12
0.10µF
+15V
C4
2.2µF
P4
P4
8
7
6
5
4
3
2
1
2
1
GND
REF
CAP
BUF
R3 IN
R2 IN
GND
R1 IN
CS
BUSY
3
J12
DCLK
DATA
EXT/INT
CONV
74HC08N
U5
+5V
VS
PWRD
DUT
ADS7813
9
10
11
12
13
14
15
16
+5V
R1
100kΩ
TP1
TP8
C5
0.01µF
R2
10.0kΩ
C6
+ 2.2µF
CONV
BUSY
G
S
S
S
D
D
D
D
5
6
7
8
TP3
TP2
TP5
7
31
29
25
21
23
39
P1
P1
P1
P1
P1
P1
P1
U6
IRF7604
(available on request)
4
3
2
1
TP4
CS
EXT/INT
DATA CLK
DATA
PWRD
J15
J14
C8
0.01µF
C7
1µF
+
P1
U5
U5
74HC08N
13
74HC08N
12
U5
74HC08N
10
9
5
4
50
48
46
44
42
40
38
36
34
32
30
28
26
24
22
20
18
16
14
12
10
8
6
4
2
11
8
6
FIGURE 3. Silkscreen of the DEM-ADS7812/13P Demonstration Board.
FIGURE 4. Component Side of the DEM-ADS7812/13P Demonstration Board.
®
DEM-ADS7812/13P
6
FIGURE 5. Top Soldermask of the DEM-ADS7812/13P Demonstration Board.
FIGURE 6. Ground Plane of the DEM-ADS7812/13P Demonstration Board.
®
7
DEM-ADS7812/13P
FIGURE 7. Bottom Soldermask of the DEM-ADS7812/13P Demonstration Board.
®
DEM-ADS7812/13P
8