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Functional Description
The 5B34 is a single-channel signal conditioning
module that amplifies,protects, filters, linearizes and isolates
a wide variety of two- and three-wire RTDs. For true four-wire
RTD measurements please refer to the 5B35 section.
The 5B34 protects the computer side from damage
due to field-side overvoltage faults. The module withstands
240 V rms at the input terminals without damage thereby shieding
the internal computer-side circuitry from field-side overvoltage
conditions. In addition, the 5B34 is mix-and-match and hot
swappable with all other 5B Series input modules, so can be
inserted or removed from any socket in the same backplane
without disrupting system power.
Inside the 5B32 Series Module
Two identical sources provide excitation
current for the RTD. For three-wire RTDs, the second current
flows through the third RTD lead so as to cancel the effects
of (equal) lead resistance; this current also flows through
a stable resistor laser-trimmed to the RTD value that sets
the differential amplifier input and (module) output to zero
volts at that scale point. The current sources and the amplifier
input are protected to withstand input overvoltage up to 240
V rms.
A differential chopper-stabilized input amplifier
provides stable gain and exceptionally low drift. This allows
the use of very low RTD excitation current to minimize self-heating
and preserve measurement accuracy. Along with module gain
and zero settings, a feedback linearizer is laser-trimmed.
Custom versions of 5B34 can be laser-trimmed to meet special
requirements.
Internal multi-pole lowpass filtering with a
four-Hz cutoff (-3dB)enhances normal-mode (noise on signal)
and common-mode (noise on signal return) rejection at 50/60
Hz, enabling accurate measurement of small signals in high
electrical noise.
Signal isolation by transformer coupling uses
a proprietary modulation technique for linear, stable and
reliable performance. The differential input circuit on the
field side is fully floating, eliminating the need for any
input grounding. A demodulator on the computer side of the
signal transformer recovers the original signal, which is
then filtered and buffered to provide a low-noise, low-impedance
output signal. The output common must be kept within ±3 V
of power common.
Convenience Features
A series output switch eliminates the need for external multiplexing
in many applications. The switch is turned on by an active-low
enable input. If the switch is to be on at all times, the
enable-input should be grounded to power common as it is on
the 5B01 and 5B08 backplanes.
Figure 1. 5B34 Functional Block diagram
Input Types
- 100
Platinum RTD
- 10
Copper RTD
- 120
Nickel RTD
Output Range
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Figure 2. 5B34 Input Field Connections
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5B34 Models Available
| Model |
Input Range |
Output Range |
Accuracy |
|
5B34-01
|
100 Platinum, α= 0.00385*
-100℃ to +100℃ (-148℉ to +212℉) |
0 V to +5 V |
±0.32℃ |
|
5B34-02
|
0℃ to +100℃ (+32℉ to 212℉) |
0 V to +5 V |
±0.13℃ |
|
5B34-03
|
0℃ to +200℃ (+32℉ to 392℉) |
0 V to +5 V |
±0.26℃ |
|
5B34-04
|
0℃ to +600℃ (+32℉ to 1112℉) |
0 V to +5 V |
±0.78℃ |
|
5B34-C-01
|
10 Copper,α= 0.004274
0℃ to +120℃ (10 @ 0℃) (+32℉ to +248℉) |
0 V to +5 V |
±0.23℃ |
|
5B34-C-02
|
0℃ to +120℃ (10 @ 25℃)(+32℉ to +248℉) |
0 V to +5 V |
±0.23℃ |
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5B34-N-01
|
120 Nickel,α= 0.00672
0℃ to +300℃ (+32℉ to +572℉) |
0 V to +5 V |
±0.40℃ |
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5B34-Custom
|
* |
* |
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* Custom Input/Output ranges are available including versions
for
the 100 Platinum RTD with
α=0.003916.
Refer to ordering guide.
5B34 Specifications
(typical @ +25℃ and Vs = +5 V dc)
| Description |
Model 5B34 |
| Input Ranges |
| Standard Ranges |
Refer to Model Table |
| Custom Ranges |
-200℃ to +850℃ (100
Platinum)
-80℃ to +320℃ (120
Nickel)
-100℃ to +260℃ (10
Copper) |
| Output Range (RL
> 50 k) |
0 V to +5 V |
| Accuracy2 |
| Initial @ +25℃ |
±0.05% Span ±0.04 *
±0.05 (Rz1) |
| Conformity Error3 |
±0.05% Span |
| Input Offset vs. Temperature |
±0.02℃/℃ |
| Output Offset vs. Temperature |
±20 µV/℃ |
| Gain vs. Temperature |
±0.005% of Reading/℃ |
| Input Bias Current |
±3 nA |
| Input Resistance |
| Power On |
5 M |
| Power Off |
40 k |
| Overload |
40 k |
| Noise |
| Input, 0.1 Hz to 10 Hz Bandwidth |
0.2 µV rms |
| Output, 100 kHz Bandwidth |
200 µV rms |
| Bandwidth, -3 dB |
4 Hz |
| Output Rise Time, 10% to 90% Span |
200 ms |
| Common-Mode Voltage
(CMV) |
| Input-to-Output, Continuous |
1500 V rms, maximum |
| Output-to-Power, Continuous4 |
±3 V, maximum |
| Transient |
ANSI/IEEE C37.90.1-1989 |
| Common Mode Rejection
(CMR) |
| 1 k
Source Imbalance, 50/60 Hz |
160 dB |
| Normal Mode Rejection 50/60 Hz |
60 dB |
| Sensor Excitation
Current |
| 100
Pt, 120 Ni |
0.25 mA |
| 10
Cu |
1.0 mA |
| Lead Resistance
Effect |
| 100
Pt, 120 Ni |
±0.02℃/ |
| 10
Cu |
±0.2℃/ |
| Input Protection |
| Continuous |
240 V rms, maximum |
| Transient |
ANSI/IEEE C37.90.1-1989 |
| Output Resistance |
50 |
| Voltage Output Protection |
Continuous Short to Ground |
| Output Selection Time |
6 µs @ Cload = 0 to
2,000 pF |
| Output Enable
Control |
| Max Logic "0" |
+1 V |
| Min Logic "1" |
+2.5 V |
| Max Logic "1" |
+36 V |
| Input Current "0" |
0.4 mA |
| Power Supply Voltage |
+5 V ±5% |
| Power Supply Current |
30 mA |
| Power Supply Sensitivity, RTI |
| 100
Pt, 120 Ni |
±0.05℃/V |
| 10
Cu |
±0.5℃/V |
| Mechanical dimensions |
2.275" x 2.375" x 0.595"
(57.8 mm x 59.1 mm x 15.1 mm) |
| Environmental |
| Temperature Range |
| Rated Performance |
-25℃ to +85℃ |
| Operating |
-40℃ to +85℃ |
| Storage |
-40℃ to +85℃ |
| Relative Humidity |
0 to 93% @ +40℃ noncondensing |
| RFI Susceptibility |
±0.5% Span error @ 400 MHz, 5 Watt, 3
ft |
* ±0.025 For
Cu RTD's; ±0.1 
For Ni RTD's.
1Rz is the value of the RTD resistance at the
lowest point of the measurement range.
2Includes the combined effects of repeatability,
hysteresis, and conformity error. Loads heavier than 50
kwill
degrade conformity and gain temperature coefficient.
3For Pt RTD's only; other types may vary.
4The output common must be kept within ±3 V of
power common.
Specifications subject to change
without notice.
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