Absolute Process Instruments APD 4058 Series, Быстрое руководство

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Precautions
WARNING! All wiring must be performed by a qualified electrician
or instrumentation engineer. See diagram for terminal designa-
tions and wiring examples. Consult factory for assistance.
WARNING! Avoid shock hazards! Turn signal input, output, and
power off before connecting or disconnecting wiring, or remov-
ing or installing module.
Précautions
ATTENTION! Tout le câblage doit être effectué par un élec-
tricien ou ingénieur en instrumentation qualifié. Voir le dia-
gramme pour désignations des bornes et des exemples de
câblage. Consulter l'usine pour assistance.
ATTENTION! Éviter les risques de choc! Fermez le signal
d'entrée, le signal de sortie et l'alimentation électrique avant
de connecter ou de déconnecter le câblage, ou de retirer ou
d'installer le module.
Electrical Connections
See wiring diagrams. Observe polarity. If the output does not
function, check wiring and polarity.
* Do not make any connections to unused terminals or use
them as wiring junctions for external devices. This may cause
permanent damage to the module!
Range Selection
It is generally easier to select ranges before installing the
module on the DIN rail. The tables list available settings for
excitation voltages, ranges and offsets. Any custom range
settings will be listed on the module's serial number label
Rotary switches and a slide switches on the side of the module
are used to select I/O ranges to match your application.
Range Selection
Switch A: Excitation voltage
Switch B: Input range
Switch C: Input offset
Switch D: Output range
Switch E : Set to "V" for voltage output or
Set to "I" for current output
Determine how much output in millivolts the load cell will
produce at full load. Multiply the manufacturer's mV/V
sensitivity specification by the applied excitation voltage.
For example, a load cell rated for 3 mV/V sensitivity using 10
VDC excitation will produce an output of 0 to 30 mV for load
variations from 0 to 100%.
3 mV/V sensitivity X 10 VDC excitation = 30 mV range
Excitation Voltage Setup Switch A
Refer to the sensor manufacturer's
recommendations to determine
what excitation voltage to use.
Set Excitation rotary switch A to
desired excitation voltage. See
table below.
After installation the excitation
fine adjust potentiometer may
be used to precisely trim this
voltage, if desired.
I/O Range Selection B, C, D, E
1. From the table below, find the rotary switch combination
that matches your I/O ranges and set rotary switches B, C,
and D.
2. Set switch E to "V" for voltage output or "I" for current
output.
3. For ranges that fall between the listed ranges use the next
highest setting and trim the output signal with the zero and
span potentiometers as described in the Calibration section.
Offset Switch C
Offset switch C allows canceling or taring of non-zero
deadweights or other sensor offsets such as:
O
Compensate for tare weights or scale deadweight to get
zero output when a load is on the platform.
O
Compensate for low-output sensors (e.g., less than 1 mV/V)
that may have large zero offsets. Switch C can realign the
zero control so it has enough range to produce the desired
zero output.
O
Raising the offset to allow calibration of bipolar sensors
such as ±10 mV.
O
Lowering the offset to compensate for elevated input
ranges such as 10-20 mV.
1. Switch C does not interact with
any other switch and is the only
switch needed to correct zero
offsets. Its only purpose is to
adjust or cancel effects of the
low end of the input range not
corresponding nominally to 0
mV. Setting this switch to “0”
results in no offset.
2. To RAISE the output zero, rotate
switch C from “1” thru “7”, until
the Zero control can be set for
your application.
3. To LOWER the output zero,
rotate switch C from “9” thru
“F”, until the Zero control can
be set for your application.
4. If switch positions are changed,
repeat the calibration procedure
on the last page.
Precautions, Range Setup APD 4058
Output 0-1 V 0-2 V 0-4 V 1-5 V 0-5 V 0-8 V 2-10 V 0-10 V ±5 V ±10 V 0-2 mA 0-4 mA 0-8 mA 2-10 mA 0-10 mA 0-16 mA 4-20 mA 0-20 mA
Switches
BCDE BCDE BCDE BCDE BCDE BCDE BCDE BCDE BCDE BCDE BCDE BCDE BCDE BCDE BCDE BCDE BCDE BCDE
Input
±2.5 mV 1B0V 1B1V 1B2V 192V 1B3V 1B5V 195V 1B6V 1B8V 1B9V 1B0I 1B1I 1B2I 192I 1B3I 1B5I 195I 1B6I
0-5 mV 1E0V 1E1V 1E2V 1C2V 1E3V 1E5V 1C5V 1E6V 1E8V 1E9V 1E0I 1E1I 1E2I 1C2I 1E3I 1E5I 1C5I 1E6I
±5 mV
9B0V 9B1V 9B2V 992V 9B3V 9B5V 995V 9B6V 9B8V 9B9V 9B0I 9B1I 9B2I 992I 9B3I 9B5I 995I 9B6I
0-10 mV 9E0V 9E1V 9E2V 9C2V 9E3V 9E5V 9C5V 9E6V 9E8V 9E9V 9E0I 9E1I 9E2I 9C2I 9E3I 9E5I 9C5I 9E6I
±10 mV 3B0V 3B1V 3B2V 392V 3B3V 3B5V 395V 3B6V 3B8V 3B9V 3B0I 3B1I 3B2I 392I 3B3I 3B5I 395I 3B6I
±12.5 mV 5B0V 5B1V 5B2V 592V 5B3V 5B5V 595V 5B6V 5B8V 5B9V 5B0I 5B1I 5B2I 592I 5B3I 5B5I 595I 5B6I
±15 mV
DB0V DB1V DB2V D92V DB3V DB5V D95V DB6V DB8V DB9V DB0I DB1I DB2I D92I DB3I DB5I D95I DB6I
0-20 mV 3E0V 3E1V 3E2V 3C2V 3E3V 3E5V 3C5V 3E6V 3E8V 3E9V 3E0I 3E1I 3E2I 3C2I 3E3I 3E5I 3C5I 3E6I
±20 mV BB0V BB1V BB2V B92V BB3V BB5V B95V BB6V BB8V BB9V BB0I BB1I BB2I B92I BB3I BB5I B95I BB6I
0-25 mV 5E0V 5E1V 5E2V 5C2V 5E3V 5E5V 5C5V 5E6V 5E8V 5E9V 5E0I 5E1I 5E2I 5C2I 5E3I 5E5I 5C5I 5E6I
±25 mV
0B0V 0B1V 0B2V 092V 0B3V 0B5V 095V 0B6V 0B8V 0B9V 0B0I 0B1I 0B2I 092I 0B3I 0B5I 095I 0B6I
0-30 mV DE0V DE1V DE2V DC2V DE3V DE5V DC5V DE6V DE8V DE9V DE0I DE1I DE2I DC2I DE3I DE5I DC5I DE6I
0-40 mV BE0V BE1V BE2V BC2V BE3V BE5V BC5V BE6V BE8V BE9V BE0I BE1I BE2I BC2I BE3I BE5I BC5I BE6I
0-50 mV 0E0V 0E1V 0E2V 0C2V 0E3V 0E5V 0C5V 0E6V 0E8V 0E9V 0E0I 0E1I 0E2I 0C2I 0E3I 0E5I 0C5I 0E6I
±50 mV
8B0V 8B1V 8B2V 892V 8B3V 8B5V 895V 8B6V 8B8V 8B9V 8B0I 8B1I 8B2I 892I 8B3I 8B5I 895I 8B6I
±60 mV FB0V FB1V FB2V F92V FB3V FB5V F95V FB6V FB8V FB9V FB0I FB1I FB2I F92I FB3I FB5I F95I FB6I
0-100 mV 8E0V 8E1V 8E2V 8C2V 8E3V 8E5V 8C5V 8E6V 8E8V 8E9V 8E0I 8E1I 8E2I 8C2I 8E3I 8E5I 8C5I 8E6I
±100 mV 2B0V 2B1V 2B2V 292V 2B3V 2B5V 295V 2B6V 2B8V 2B9V 2B0I 2B1I 2B2I 292I 2B3I 2B5I 295I 2B6I
0-120 mV
FE0V FE1V FE2V FC2V FE3V FE5V FC5V FE6V FE8V FE9V FE0I FE1I FE2I FC2I FE3I FE5I FC5I FE6I
±125 mV 4B0V 4B1V 4B2V 492V 4B3V 4B5V 495V 4B6V 4B8V 4B9V 4B0I 4B1I 4B2I 492I 4B3I 4B5I 495I 4B6I
±150 mV CB0V CB1V CB2V C92V CB3V CB5V C95V CB6V CB8V CB9V CB0I CB1I CB2I C92I CB3I CB5I C95I CB6I
0-200 mV 2E0V 2E1V 2E2V 2C2V 2E3V 2E5V 2C5V 2E6V 2E8V 2E9V 2E0I 2E1I 2E2I 2C2I 2E3I 2E5I 2C5I 2E6I
±200 mV
AB0V AB1V AB2V A92V AB3V AB5V A95V AB6V AB8V AB9V AB0I AB1I AB2I A92I AB3I AB5I A95I AB6I
0-250 mV 4E0V 4E1V 4E2V 4C2V 4E3V 4E5V 4C5V 4E6V 4E8V 4E9V 4E0I 4E1I 4E2I 4C2I 4E3I 4E5I 4C5I 4E6I
0-300 mV CE0V CE1V CE2V CC2V CE3V CE5V CC5V CE6V CE8V CE9V CE0I CE1I CE2I CC2I CE3I CE5I CC5I CE6I
0-400 mV AE0V AE1V AE2V AC2V AE3V AE5V AC5V AE6V AE8V AE9V AE0I AE1I AE2I AC2I AE3I AE5I AC5I AE6I
0-1000 mV
6E0V 6E1V 6E2V 6C2V 6E3V 6E5V 6C5V 6E6V 6E8V 6E9V 6E0I 6E1I 6E2I 6C2I 6E3I 6E5I 6C5I 6E6I
0-1200 mV EE0V EE1V EE2V EC2V EE3V EE5V EC5V EE6V EE8V EE9V EE0I EE1I EE2I EC2I EE3I EE5I EC5I EE6I
Excitation Switch A
10 V A
9 V 9
8 V 8
7 V 7
6 V 6
5 V 5
4 V 4
3 V 3
2 V 2
1 V 1
0 V 0
Offset
% of Span Switch C
105% 7
90% 6
75% 5
60% 4
45% 3
30% 2
15% 1
0% 0
–15% 9
–30% A
–45% B
–60% C
–75% D
–90% E
–105% F
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