Introduction of E-Cam Operation ASDA Series Application Note
2-40 March, 2015
Example 2:
When using Macro 7 to create an E-Cam curve and R = 0.5 ~ 1.09 (when R < 1.0, cutting length
< cutter circumference), follow the instructions shown in Figure 2.57 to write macro commands
can avoid occurrence of error codes. Table in Figure 2.57 shows the setting range of waiting area
and constant speed area based on the S level.
Marco Command P5-97 = 7 (8)
The table is for the case of R = 0.05~1.09 and P5-82 = 72.
P5-93.H = S = 1 ~ 4; P5-93.L = W = (Wd/2), (Hex.)
P5-94 = Y; P5-95.H = A*C, (Hex.); P5-95.L = B, (Hex.)
P5-96 = 1000000 * R * Vc; P5-97 = 7
Figure 2.57 Diagram for Creating E-Cam table with Macro 7 (R = 0.05 ~1.09)
2.6 E-gear Ratio and Scaling of E-Cam Curve
P5-19 and E-gear ratio of the slave axis will change the E-Cam scaling from issuing command to
output. See Figure 2.58.
P5-19
E-Cam
Curve
Scaling
P1-44
P1-45
Slave
E-Gear
Position (PUU)
Slaver
E-Cam
Master
Position (PUU)
Slaver
E-Cam
Master
Figure 2.58 Scaling of E-Cam Curve
The E-gear ratio of E-Cam axis is identical to the system’s which specified by P1-44 and P1-45.
Change of slave axis’ E-gear ratio will change the system’s E-gear ratio; the system’s E-gear
ratio will not be restored even when E-Cam is disengaged. Therefore, it is not suggested to
modify the scaling of E-Cam curve by P1-44 and P1-45 as this will also change the E-gear ratio
of the entire system. When E-cam is disabled, PR command will also refer to this E-gear ratio.
Effect brought by P5-19 is the same as the E-cam’s E-gear ratio but only effective to E-Cam
system instead of the system’s E-gear ratio. In this case, using P5-19 to change the scaling of
E-Cam curve is recommended. In terms of E-Cam’s output,
the effect of adjusting value of P5-19
is the same as adjusting the value of P1-44 /P1-45. When P5-19 = 0.5, the output of E-Cam axis
S = 2 Wd = 0º~140º Y = 0º~150º
Wd = 0º~(140º-∆χ) Y = 0º~(150º+∆χ)
Wd = 0º~(140º+∆χ) Y = 0º~(150º-∆χ)
S = 3 Wd = 0º~110º Y = 0º~110º
Wd = 0º~(110º-∆χ) Y = 0º~(110º+∆χ)
Wd = 0º~(110º+∆χ) Y = 0º~(110º-∆χ)
S = 4 Wd = 0º~50º Y = 0º~30º
Wd = 0º~(50º-∆χ) Y = 0º~(30º+∆χ)
Wd = 0º~(50º+∆χ) Y = 0º~(30º-∆χ)
S = 1 Wd = 0º~150º Y = 0º~150º
Wd = 0º~(150º-∆χ) Y = 0º~(150º+∆χ)
Wd = 0º~(150º+∆χ) Y = 0º~(150º-∆χ)