July 25, 2023
page
12
Q5X with Dual Discrete Outputs and IO-Link Quick Start Guide
Output Rating
Current rating: 50 mA maximum
Black wire specifications per configuration
IOLink Push/Pull
Output High:
≥ Vsupply 2.5 V
Output Low:
≤ 2.5 V
PNP
Output High:
≥ Vsupply 2.5 V
Output Low:
≤ 1V (loads ≤ 1 MegΩ)
NPN
Output High:
≥ Vsupply 2.5 V (loads ≤ 50 kΩ)
Output Low:
≤ 2.5 V
White wire specifications per configuration
PNP
Output High:
≥ Vsupply 2.5 V
Output Low:
≤ 2.5 V (loads ≤ 70 kΩ)
NPN
Output High:
≥ Vsupply 2.5 V (loads ≤ 70 kΩ)
Output Low:
≤ 2.5 V
Discrete Output Distance Repeatability
Distance (mm)
Repeatability (2000
mm Models)
Repeatability (3000 mm Models)
95 to 300
± 0.5 mm
± 0.5 mm
300 to 1000
± 0.25%
± 0.25%
1000 to 2000
± 0.25%
± 0.25%
2000 to 3000
± 1.0%
See the charts for the Repeatability of the 5000 mm and
10000 mm models.
Typical Excess Gain for the 2000 mm Model
High Excess Gain (Standard Excess Gain) Using a 90% White Card
Response
Speed (ms)
at 100 mm
at 500 mm
at 1000 mm
at 2000 mm
3
125
50
15
4
5
125
50
15
4
15
575 (175)
250 (75)
70 (25)
15 (6)
25
1000 (650)
450 (250)
125 (70)
30 (15)
50
2000 (1000)
900 (450)
250 (125)
60 (30)
Standard excess gain is available in 15, 25, and 50 ms re
sponse speeds; standard excess gain provides increased
noise immunity.
Typical Excess Gain for the 3000 mm Model
High Excess Gain (Standard Excess Gain) Using a 90% White Card
Response
Speed (ms)
at 100 mm
at 500 mm
at 1000 mm
at 2000 mm
at 3000 mm
200
0
25
6
3
200
0
25
6
3
920
400
100
25
12
1600
700
200
50
25
3200
1400
400
100
50
Standard excess gain is available in 15, 25, and 50 ms re
sponse speeds; standard excess gain provides increased
noise immunity.
Typical Excess Gain for the 5000 mm Model
Typical Excess Gain Using a 90% White Card (Performance Gain Mode)
at 50 mm
at 600 mm
at 1000 mm
at 2000 mm
at 5000 mm
50
400
400
175
30
Excess gain is consistent for 15, 50, and 250 ms response
speeds. Excess gain is approximately 10% lower in 2 ms and
5 ms response speed modes.
Excess gain in black gain mode is approximately three times
higher than in performance gain mode. It is useful for lowre
flectivity targets.
Excess gain in shiny gain mode is approximately one-third the
excess gain of performance gain mode values. It is useful for
highly reflective targets.
Typical Excess Gain for the 10000 mm Model
Typical Excess Gain Using a 90% White Card
at 50
mm
at 600
mm
at 1000
mm
at 2000
mm
at 5000
mm
at 6000
mm
at 7500
mm
at
10000
mm
50
400
400
175
30
20
10
5
Excess gain is consistent for 15, 50, and 250 ms response
speeds. Excess gain is approximately 10% lower in 2 ms and
5 ms response speed modes.
Excess gain in black gain mode is approximately three times
higher than in performance gain mode. It is useful for lowre
flectivity targets.
Excess gain in shiny gain mode is approximately one-third the
excess gain of performance gain mode values. It is useful for
highly reflective targets.
© Banner Engineering Corp.
