H7EC-NFV-B Omron, H7EC-NFV-B Datasheet - Page 24
H7EC-NFV-B
Manufacturer Part Number
H7EC-NFV-B
Description
COUNTER TOTALIZER 20HZ AC/DC IN
Manufacturer
Omron
Series
H7ECr
Specifications of H7EC-NFV-B
Count Rate
1kHz
Number Of Digits/alpha
8
Input Type
Voltage
Voltage - Supply
None Required (Battery Included)
Display Type
LCD Non-Backlit
Voltage Rating
24 VAC/DC to 240 VAC/DC
Mounting
Flush Mounting Adapter
No. Of Digits / Alpha
8
Digit Height
8.6mm
Counting Speed
20Hz
Operating Temperature Range
-10°C To +55°C
Height
0.94"
Mounting Type
Flush
Panel Cutout Width
45mm
Width
1.89"
Signal Input Type
Voltage
Equipment Type
Self-Powered Count Totalizer
Dimensions
48 mm L x 24 mm W x 48.5 mm H
Mounting Style
Panel
Primary Voltage Rating
24 V to 240 V
Termination Style
Screw
Depth
1.91"
Ip/nema Rating
IP66 / NEMA 4
Rohs Compliant
Yes
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Output Type
-
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Other names
H7EC-FBV
H7ECNFVB
Z867
H7ECNFVB
Z867
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
H7EC-NFV-B
Manufacturer:
Omron Electronics Inc-IA Div
Quantity:
135
Connections
■ Terminal Arrangement
■ Connections
Power Supply and Battery Connections
Battery Connections
When designing a circuit, keep the power wiring connections shorter
than 50 mm. Refer to the connection diagram above for the proper
wiring polarity.
The life expectancy of a battery power supply can be calculated by
the following formula:
t = A/l
Where,
t:
A: Battery capacity (mAh)
l
Example:
Battery life when using a 3-V lithium battery with a capacity of
1,200 mAh for the H7E@-N@P.
t = 1,200 [mAh]/20 × 10
The battery capacity varies depending on the type of battery used;
oxidized silver, mercury, or lithium battery.
Voltage Division of Power Supply Circuit
When necessary, the voltage from the battery may be divided by
resistances:
When doing so, however, ensure that the following equation bal-
ances:
E (V) × R
Allow a current high enough to flow through R
N@P receives sufficient current.
C is a film capacitor, of about 0.1 µF, and is intended to absorb noise
induced by the power lines.
Keep the wiring between the H7E@-N@P and R
possible (within 50 mm).
H7EC-N@P
c
R
R
: H7E@-N@P current consumption (mA)
1
2
Life expectancy of battery (h)
c
Reset
input
R
2
/ (R
1
+ R
H7E@-N@P
2 kΩ
3 kΩ
2
) = 3 V
–3
5 V
[mA] = 60,000 hours (approx. 6.8 years)
H7E@-N@P
3-V battery
3-VDC external
power supply
9.1 kΩ
3 kΩ
Count
input
12 V
E
1
so that the H7E@-
2
or C as short as
33 kΩ
4.7 kΩ
24 V
H7ET-NP
Reset
input
Backup Circuit for Protection Against Power
Failure
Use a diode (D) having a forward voltage as small as possible (0.1 V
max. at I
Determine the ratio of R
age of the diode to be used. Be aware that when the power supplied
to the H7E@-N@P has dropped to less than the voltage of the
backup circuit, the battery will discharge.
To protect the circuit against a momentary power failure, an alumi-
num electrolyte capacitor can be used in place of a battery, as shown
below:
When a capacitor is used, its backup time can be calculated by the
following formula:
t = C (V
Where,
t:
C: Capacitance (µF)
V
V
I
Example:
Backup time by an aluminum electrolytic capacitor of 100 µF. (Mini-
mum operating voltage of H7E@-N@P is 2.6 V.)
t = 100 µF × (3–2.6 V)/20 µA = 100 × 0.40/20 = 2.0 seconds
Note that the above calculation provides an approximate value,
which varies depending on the environment under which the Counter
is used and also on the type of capacitors used. Provide some allow-
ance in selecting capacitors.
Keep the wiring between the H7E@-N@P and R
possible (within 50 mm).
c
: H7E@-N@P current consumption (µA)
1
2
: Supply voltage before power failure (V)
: Minimum operating voltage of H7E@-N@P (V)
Backup time (s)
1
F
– V
of 20 µA).
2
) / I
c
H7E@-N@P
H7E@-N@P
3-VDC external
power supply
1
to R
Timer
input
2
in accordance with the forward volt-
3-V
bat-
tery
Backup
circuit
Backup
circuit
H7E@-N@P
2
or C as short as
24