dc2296 – dc2209 and dc2210 ltc2983 digital temperature
TRANSCRIPT
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DEMO MANUAL DC2296
Description
DC2209 and DC2210LTC2983
Digital Temperature Measurement System
The DC2296 is the starter kit for demonstrating the per-formance and ease of use of the LTC®2983, which is a complete temperature measurement system on a chip. This kit includes the DC2209 (main demo circuit contain-ing the LTC2983) and the DC2210 (a simple experiment circuit allowing bread boarding). In addition to the starter demonstration kit, sensor specific demonstration boards highlighting the performance of RTDs, thermistors, or thermocouples are also available.
• Universal Temperature Measurement Board – DC2211
• Thermocouple Board – DC2212
• Dedicated RTD Board – DC2213
• Dedicated Thermistor Board – DC2214
L, LT, LTC, LTM, Linear Technology and the Linear logo are registered trademarks and QuikEval and Linduino are trademarks of Linear Technology Corporation. All other trademarks are the property of their respective owners.
The DC2209 is a member of the QuikEval™ family of dem-onstration boards. It is designed to allow easy evaluation of the LTC2983 and may be connected to any one of the sensor daughter boards.
These daughter boards allow evaluation of the various LTC2983 sensor types (see Figure 1).
For the serial digital interface, the DC2209 may be con-nected to the DC2026 Linduino™ One.
Design files for this circuit board are available at http://www.linear.com/demo/DC2296
Figure 1. DC2209 Temperature Measurement Demonstration Board
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Quick start proceDureConnect one of the five sensor daughter boards (DC2210, DC2211, DC2212, DC2213 or DC2214) to the DC2209 demo board. Connect the DC2209 to a DC2026 using the supplied 14-conductor ribbon cable. Connect the DC2026 to the PC using a standard USB A/B cable. Run the QuikEval software which the latest version can be downloaded from the Linear website at www.linear.com/software. The LTC2983 demo program will be loaded automatically. Refer to software manual LTC2983DSM for more detailed information.
The demo software helps program and run the LTC2983. It can configure the LTC2983, check and save the con-figuration, run the LTC2983, output the results into a file, and even create Linduino One ready C code based on the configuration. The demo software allows the user to configure the LTC2983 manually or automatically from data stored in the daughter board EEPROM. Please see www.linear.com/LTC2983software for the demo software manual. It includes a short tutorial for getting started. Figure 2 shows a screenshot of the demo software at start-up.
Figure 2. LTC2983 Demo Software
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HarDware setupDC2210 ExpEriMEnTEr BoarD (inCLuDED in DC2296 KiT)
The DC2210 experimenter board (see Figure 3) brings all 20 channels plus the COM connection out to a proto area
and a 24-position terminal block. The user may connect any of the supported sensors and sense resistors to any of the LTC2983 inputs in this area. Figure 4 shows the connection schematic of the DC2210 Experimenter board.
Figure 3. DC2210 Experimenter Board
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HarDware setup
Figure 4. DC2210 Experimenter Board Schematic
J1
J2
J3
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DEMO MANUAL DC2296
HarDware setupDC2211 univErSaL TEMpEraTurE MEaSurEMEnT BoarD
The universal temperature measurement board (see Figure 5) allows the user to connect any of the LTC2983 sup-ported sensors to the DC2209 demo board.
Figure 5. DC2211 universal Temperature Measurement Board
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DEMO MANUAL DC2296
HarDware setupThe universal temperature measurement board has a built-in sense resistor for RTD applications as well as a cold junction sensor diode for thermocouple applications (see Figure 6 for the DC2211 schematic diagram). The sense resistor is a 2kΩ ±0.1% 10ppm/°C sense resistor on channels 1 and 2 which may be used with any of the supported RTD sensor types. The precise value of this sense resistor is stored in an on-board EEPROM. The LTC2983 demo software can read this EEPROM and use to configure the sense resistor value in the LTC2983’s configuration memory.
The external interface on the universal temperature mea-surement board is an 8-position screw-terminal block with the flowing pinout.
Table 1. DC2211 Terminal Connector pinoutPosition A LTC2983 CH2 as well as the low side of the on-board 2k
sense resistor
Position B LTC2983 CH3
Position C LTC2983 CH4
Position D LTC2983 CH5
Position E Common/Ground Connection
Position F Common/Ground Connection
Position G Common/Ground Connection
Position H Common/Ground Connection
J2
J1
R6
Q1
R5, 100Ω
R4, 100Ω
R3, 100Ω
R2, 100Ω
R1, 100Ω
Figure 6. DC2211 universal Temperature Measurement Board Schematic
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DEMO MANUAL DC2296
HarDware setupunivErSaL TEMpEraTurE MEaSurEMEnT DaughTEr BoarD ExaMpLES
• Four thermocouples connected to positions A-D with the negative connections tied to positions E-H using the on-board diode as cold junction sensor (see Figure 7a for the schematic and Figure 8a for the corresponding software configuration).
• A 4-wire RTD connected to positions A-D using the on-board sense resistor as the ratiometric reference (see Figure 7b for the schematic and Figure 8b for the corresponding software configuration).
Figure 7. universal Temperature Measurement Board Examples
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HarDware setup
Figure 8a. DC2211 Four Thermocouple Software Configuration
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HarDware setup
Figure 8b. DC2211 4-Wire rTD Software Configuration
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DEMO MANUAL DC2296
HarDware setupDC2212 ThErMoCoupLE DaughTEr BoarD
The thermocouple board (see Figure 9) demonstrates the flexibility, accuracy, and low noise features of the LTC2983 thermocouple modes.
If the user wishes to connect external sensors to the thermocouple board, two universal-type thermocouple jacks (J2 and J3) are provided (see schematic diagram Figure 10 and corresponding software configuration Figure 11). The user may connect any of the LTC2983 supported thermocouples (B, E, J, K, N, R, S, or T) as well as custom thermocouples through these jacks.
To demonstrate the flexibility of the LTC2983, the thermo-couple board includes cold junction diodes (Q1 and Q2) embedded in each thermocouple socket. Alternatively, a 4-wire PT100 RTD (R5) can be used as the cold junction sensor for either or both thermocouples.
To demonstrate the low system noise and offset of the LTC2983, the thermocouple board provides a short to ground on channel 5.
To demonstrate the accuracy of the LTC2983, the thermo-couple board allows the user to connect a thermocouple calibrator or an external voltage source to CH10 of the LTC2983 through a pair of banana jacks (J4 and J5).
Figure 9. DC2212 Thermocouple Daughter Board
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HarDware setup
Figure 10. DC2212 Thermocouple Board Schematic
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DEMO MANUAL DC2296
HarDware setup
Figure 11. DC2212 Software Configuration
noTE: protection resistors not shown in configuration schematic
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DEMO MANUAL DC2296
HarDware setupDC2213 DEDiCaTED rTD BoarD
The DC2213 dedicated RTD board (see Figure 12) dem-onstrates the flexibility, accuracy, and low noise features of the LTC2983 RTD sensor modes. The DC2213 provides several circuits demonstrating the features of the LTC2983.
The DC2213 (see schematic diagram Figure 13 and cor-responding software configuration Figure 14) provides a 2kΩ ±0.1% 10ppm/°C sense resistor on channels 2 and 3 which may be used with any of the RTD sensor circuits on this board. An additional Kelvin connection is also provided to this sense resistor on channel 1. The precise
measured value of this sense resistor is stored in an on-board EEPROM which the LTC2983 demo software can read and use to configure the sense resistor value.
To demonstrate the low system noise of the LTC2983, the dedicated RTD board provides a 0°C PT100 simulator (100Ω ±0.01% 10ppm/°C) on channels 3 to 6 configured as a 4-wire sensor. In addition to this the user may use this circuit to demonstrate how the rotated mode eliminates measurement error introduced by parasitic thermocouples. To facilitate this measurement, the DC2213 provides an external thermocouple interface which acts as a parasitic thermocouple.
Figure 12. DC2213 Dedicated rTD Board
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HarDware setupTo see the effects of parasitic thermocouples on non-rotated measurement modes, first measure the on-board 0°C PT100 simulator in a non-rotated configuration and see the measurement error as the thermocouple’s temperature changes. To see the benefit of the rotated measurement mode, switch from the no rotation/sharing to the rotation/sharing configuration and see the errors introduced by the parasitic thermocouple minimized.
In addition to the fixed value RTD simulator, there is also a variable resistor RTD simulator. This circuit can be used
to demonstrate the range of the various LTC2983 RTD sensor modes as well as demonstrate the fault detection capabilities of the LTC2983.
If the user wishes to connect an external RTD to the sensor board, a 4-position terminal block is provided. The user may connect any of the LTC2983 supported RTDs as well as custom RTDs to the DC2209 demo board through this interface. The interface may be configured for 3 or 4 wire sensors. To demonstrate the accuracy of the LTC2983, the user may also connect an RTD calibrator or precision resistors to this interface.
Figure 13. DC2213 Dedicated rTD Board Schematic
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HarDware setup
Figure 14. DC2213 Software Configuration
noTE: protection resistors not shown in configuration schematic
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DEMO MANUAL DC2296
HarDware setupDC2214 DEDiCaTED ThErMiSTor BoarD
The DC2214 dedicated thermistor board includes several circuits (see Figure 15) to demonstrate the flexibility, ac-curacy, and low noise features of the LTC2983 thermistor sensor modes.
The DC2214 provides a 10kΩ ±0.1% 15ppm/°C sense resistor on channels 1 and 2 which is shared with all of the thermistor sensor circuits on this board (see schematic diagram Figure 16 and corresponding software configura-tion Figure 17). The measured value of this sense resistor is stored in an on-board EEPROM which the LTC2983 demo software can read and use to configure the sense resistor value.
To demonstrate the low system noise of the LTC2983 the dedicated thermistor board provides a 25°C 10k thermis-tor simulator (10kΩ ±0.1% 15ppm/°C) on channels 2-4 configured as a differential sensor. In addition to this the user may use this circuit to demonstrate how the rotated mode eliminates measurement error introduced by parasitic thermocouples. To facilitate this demonstration the DC2214 provides an external thermocouple interface which acts as a parasitic thermocouple.
To see the effects of parasitic thermocouples on non-rotated measurement modes, first measure the on-board 25°C 10k thermistor simulator in a no-rotation/sharing configuration and see the measurement error as the
thermocouple’s temperature changes. To see the benefit of the rotated measurement mode, switch to the rotation/sharing configuration and see the errors introduced by the parasitic thermocouple disappear (the effects are more significant with lower excitation current).
The DC2214 also includes a 499kΩ (0.1% 15ppm/°C) thermistor simulator on channels 9 and 10. Ideally, this resistor simulates –30.59°C for a 44008 (30k) thermistor and –51.94°C for a 44006 (10k) thermistor. Note, the 10k thermistor reports the temperature, but also indicates a soft fault since the temperature is below the thermistor’s specified minimum temperature.
In addition to the fixed value thermistor simulators, there is a variable resistor thermistor simulator as well. This circuit can be used to demonstrate the range of the various LTC2983 thermistor sensor modes as well as demonstrate the fault detection capabilities of the LTC2983.
If the user wishes to connect an external thermistor to the daughter board, a 2-position terminal block is provided. The user may connect any of the LTC2983 supported thermistors as well as custom thermistors to the DC2209 demo board through this interface. To demonstrate the accuracy of the LTC2983, the user may connect external resistance standards to this interface.
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DEMO MANUAL DC2296
Figure 15. DC2214 Thermistor Daughter Board
HarDware setup
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HarDware setup
Figure 16. DC2214 Dedicated Thermistor Board Schematic
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HarDware setup
Figure 17. DC2214 Software Configuration
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DEMO MANUAL DC2296
parts ListiTEM QTY rEFErEnCE parT DESCripTion ManuFaCTurEr/parT nuMBEr
DC2209 required Circuit Components
1 21 C1-C21 CAP., NP0, 100pF 100V, 5%, 0603 MURATA, GRM1885C2A101JA01D
2 7 C22, C24, C25, C30, C31, C33, C34
CAP., X7R, 10µF 10V, 10%, 0805 MURATA, GRM21BR71A106KE51L
3 7 C23, C26, C27, C28, C29, C32, C35
CAP., X7R, 0.1µF 25V, 10%, 0603 MURATA, GRM188R71E104KA01D
4 4 E1, E2, E3, E4 TURRET, TESTPOINT 0.064" MILL-MAX, 2308-2-00-80-00-00-07-0
5 1 J1 CONN., 40P, CON-HIROSE-FX2-40P-1.27DS HIROSE, FX2-40P-1.27DS
6 1 J2 CONN., HEADER 14POS 2MM VERT GOLD MOLEX, 87831-1420
7 1 R1 RES., CHIP, 1Ω, 1/10W, 5% 0603 VISHAY, CRCW06031R00FJEA
8 1 R2 RES., CHIP, 100k, 1/10W, 1% 0603 VISHAY, CRCW0603100KFKEA
9 3 R3, R4, R5 RES., CHIP, 4.99k, 1/10W, 1% 0603 VISHAY, CRCW06034K99FKEA
10 1 U1 I.C., LTC2983CLX, LQFP48LX-7X7 LINEAR TECH., LTC2983CLX
11 1 U2 I.C., 24LC025-I/ST, TSSOP8 MICROCHIP, 24LC025-I/ST
12 2 MH1, MH2 STANDOFF, NYLON, 0.25", 1/4" KEYSTONE, 8831 (SNAP ON)
DC2210 required Circuit Components
1 1 C1 CAP., X7R, 0.1uF 25V, 10%, 0603 MURATA, GRM188R71E104KA01D
2 1 J1 CONN., 40P, CON-HIROSE-FX2-40S-DAUGHTER HIROSE, FX2-40S-1.27DS(71)
3 2 J2,J3 CONN., TERM BLOCK 2.54MM 12POS PHOENIX, 1725753
4 0 R1,R2 RES., 0603 OPT
5 1 R3 RES., CHIP, 4.99k, 1/10W, 1% 0603 PANASONIC, ERJ-3EKF4991V
6 1 U1 I.C., EEPROM 2KBIT 400KHZ 8TSSOP MICROCHIP, 24LC025-I/ST
7 4 MH1-MH4 STANDOFF, NYLON, 0.25", 1/4" KEYSTONE, 8831 (SNAP ON)
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DEMO MANUAL DC2296
Information furnished by Linear Technology Corporation is believed to be accurate and reliable. However, no responsibility is assumed for its use. Linear Technology Corporation makes no representa-tion that the interconnection of its circuits as described herein will not infringe on existing patent rights.
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LTC
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U1
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GND9 NC10
VR
EFO
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GND3 VDD4 GND5
GND7
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CH1833
CH1934
CH2035
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SD
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CH
217
CH
419
CH
520
CH
621
CH1530
CH1328CH1227CH1126
CH
823
CH
722
Q3
46
GN
D44
LDO
43
RE
SE
TN42
GND1
VDD6
VDD8
VREF_BYP11 GND12
GN
D15
CH
318
CH
924
CH1025
CH1429
CH1732
COM36
INTE
RR
UP
T37
VD
D45
Q2
47Q
148
C26
0.1u
FC
260.
1uF
E3VD
DE3
VDD
GN
DG
ND
C13
100p
FC
1310
0pF
R3
4.99
kR
34.
99k
C20
100p
FC
2010
0pF
C1
100p
FC
110
0pF
C23
0.1u
FC
230.
1uF
C11
100p
FC
1110
0pF
C30
10uF
0805
C30
10uF
0805
CS
CS
C22
10uF
0805
C22
10uF
0805
C31
10uF
0805
C31
10uF
0805
R5
4.99
kR
54.
99k
C19
100p
FC
1910
0pF
C16
100p
FC
1610
0pF
WP
WP
C9
100p
FC
910
0pF
SDO
SDO
E4G
ND
E4G
ND
EEPROMARRAY
U2
24LC
025-
I /ST
EEPROMARRAY
U2
24LC
025-
I /ST
SD
A5
VCC8
A0
1A
12
A2
3
GND4
WP
7S
CL
6
R2
100k
R2
100k
C35
0.1u
FC
350.
1uF
E2IN
TER
RU
PTE2
INTE
RR
UPT
C2
100p
FC
210
0pF
C3
100p
FC
310
0pF
C10
100p
FC
1010
0pF
C7
100p
FC
710
0pF
C15
100p
FC
1510
0pF
GN
DG
ND
SCK
SCK
C4
100p
FC
410
0pF
C34
10uF
0805
C34
10uF
0805
R4
4.99
kR
44.
99k
AB
CD
J1
HIR
OSE
-FX2
-40P
-1.2
7DS
AB
CD
J1
HIR
OSE
-FX2
-40P
-1.2
7DS
D1
D2
A1
C1
B1
B2
C2
D3
C3
D4
C4
D5
C5
D6
C6
D7
C7
D8
C8
D9
C9
D10
C10
A2
B3
A3
B4
A4
B5
A5
B6
A6
B7
A7
B8
A8
B9
A9
B10
A10
C29
0.1u
FC
290.
1uF
C28
0.1u
FC
280.
1uF
C5
100p
FC
510
0pF
J2
HD
2X7-
079-
MO
LEX
J2
HD
2X7-
079-
MO
LEX
MO
SI/S
DA
7
EE
SD
A9
V+
1
5V2
CS
6
SC
K/S
CL
4
EE
VC
C10
MIS
O5
EE
SC
L11
EE
GN
D12
AU
X14
GND3
GND13
GND8
C12
100p
FC
1210
0pF
C21
100p
FC
2110
0pF
C25
10uF
0805
C25
10uF
0805
C24
10uF
0805
C24
10uF
0805
C32
0.1u
FC
320.
1uF
E1R
ESET
E1R
ESET
C6
100p
FC
610
0pF
R1
1R1
1
C27
0.1u
FC
270.
1uF
C8
100p
FC
810
0pF
C18
100p
FC
1810
0pF
EEG
ND
EEG
ND
C17
100p
FC
1710
0pF
SDI
SDI
C14
100p
FC
1410
0pF
22dc2296fa
DEMO MANUAL DC2296
Linear Technology Corporation1630 McCarthy Blvd., Milpitas, CA 95035-7417 (408) 432-1900 FAX: (408) 434-0507 www.linear.com LINEAR TECHNOLOGY CORPORATION 2014
LT 1114 REV A • PRINTED IN USA
DEMONSTRATION BOARD IMPORTANT NOTICE
Linear Technology Corporation (LTC) provides the enclosed product(s) under the following aS iS conditions:
This demonstration board (DEMO BOARD) kit being sold or provided by Linear Technology is intended for use for EnginEEring DEvELopMEnT or EvaLuaTion purpoSES onLY and is not provided by LTC for commercial use. As such, the DEMO BOARD herein may not be complete in terms of required design-, marketing-, and/or manufacturing-related protective considerations, including but not limited to product safety measures typically found in finished commercial goods. As a prototype, this product does not fall within the scope of the European Union directive on electromagnetic compatibility and therefore may or may not meet the technical requirements of the directive, or other regulations.
If this evaluation kit does not meet the specifications recited in the DEMO BOARD manual the kit may be returned within 30 days from the date of delivery for a full refund. THE FOREGOING WARRANTY IS THE EXCLUSIVE WARRANTY MADE BY THE SELLER TO BUYER AND IS IN LIEU OF ALL OTHER WARRANTIES, EXPRESSED, IMPLIED, OR STATUTORY, INCLUDING ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR ANY PARTICULAR PURPOSE. EXCEPT TO THE EXTENT OF THIS INDEMNITY, NEITHER PARTY SHALL BE LIABLE TO THE OTHER FOR ANY INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES.
The user assumes all responsibility and liability for proper and safe handling of the goods. Further, the user releases LTC from all claims arising from the handling or use of the goods. Due to the open construction of the product, it is the user’s responsibility to take any and all appropriate precautions with regard to electrostatic discharge. Also be aware that the products herein may not be regulatory compliant or agency certified (FCC, UL, CE, etc.).
No License is granted under any patent right or other intellectual property whatsoever. LTC assumes no liability for applications assistance, customer product design, software performance, or infringement of patents or any other intellectual property rights of any kind.
LTC currently services a variety of customers for products around the world, and therefore this transaction is not exclusive.
please read the DEMo BoarD manual prior to handling the product. Persons handling this product must have electronics training and observe good laboratory practice standards. Common sense is encouraged.
This notice contains important safety information about temperatures and voltages. For further safety concerns, please contact a LTC applica-tion engineer.
Mailing Address:
Linear Technology
1630 McCarthy Blvd.
Milpitas, CA 95035
Copyright © 2004, Linear Technology Corporation