Panasonic A6 Servo Motor and Driver Instruction — List of Parameters/[Class 1] Gain adjustment

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Keywords:Panasonic A6 Servo Installation Instruction, Panasonic A6 Driver, Panasonic A6 Series Servo Motor Manual

Panasonic A6 Servo Motor and Driver Instruction — List of Parameters/[Class 1] Gain adjustment

Abstract

The correct setup of the parameter and mode of the Panasonic A6 series of servo will ensure the proper working of the Panasonic A6 series of motor and the stability of your machineries and automation system.

[Class 1] Gain adjustment

Parameter No.		Title	Range	Default			Unit	Turning on of power supply	Related Control Mode				Detail page
Class	No.	Title	Range	A, B-frame	C-frame	D, E, F-frame	Unit	Turning on of power supply	P	S	T	F	Detail page
1	00	1^st gain of position loop	0 to 30000	480		320	0.1/s^*		○			○	4-16
1	01	1^st gain of velocity loop	1 to 32767	270		180	0.1 Hz^*		○	○	○	○
1	02	1^st time constant of velocity loop integration	1 to 10000	210		310	0.1 ms^*		○	○	○	○

Partial parameter of standard type and communication type are different from a table in a shipment parameter.
Definition of symbols under "Power Off/On"—: if a change is made, it will be reflected upon the parameter when the power to the driver is turned off and then on again.
Definition of symbols under "Related mode"—P: position control, S:velocity, T: torque control, F: full closed control *1 Default settings depend on the combination of driver and motor. Refer to P.2-68 "Torque limit setting".

Caution → The symbol "*" attached to "Unit". indicates that the digits of setting unit will change if the parameter is set by using the setup support software PANATERM.
Note → Parameter describes of this page is P.4-6 to P.4-16.

List of Parameters

Parameter No.		Title	Range	Default			Unit	Turning on of power supply	Related Control Mode				Detail page
Class	No.	Title	Range	A, B-frame	C-frame	D,E,F-frame	Unit	Turning on of power supply	P	S	T	F	Detail page
1	03	1^st filter of speed detection	0 to 5	0			—		○	○	○	○	4-16
1	04	1^st time constant of torque filter	0 to 2500	84		126	0.01 ms		○	○	○	○	4-16
1	05	2^nd gain of position loop	0 to 30000	480		320	0.1/s^*		○			○	4-17
1	06	2^nd gain of velocity loop	1 to 32767	270		180	0.1Hz^*		○	○	○	○
1	07	2^nd time constant of velocity loop integration	1 to 10000	210		310	0.1ms^*		○	○	○	○
1	08	2^nd filter of speed detection	0 to 5	0			—		○	○	○	○
1	09	2^nd time constant of torque filter	0 to 2500	84		126	0.01ms^*		○	○	○	○
1	10	Velocity feed forward gain	0 to 4000	1000			0.10 %*		○			○
1	11	Velocity feed forward filter	0 to 6400	0			0.01 ms^*		○			○
1	12	Torque feed forward gain	0 to 2000	1000			0.10%^*		○	○		○	4-18
1	13	Torque feed forward filter	0 to 6400	0			0.01ms^*		○	○		○
1	14	2^nd gain setup	0 to 1	1			—		○	○	○	○
1	15	Mode of position control switching	0 to 10	0			—		○			○	4-19
1	16	Delay time of position control switching	0 to 10000	10			0.1ems^*		○			○	4-19
1	17	Level of position control switching	0 to 20000	0			—		○			○	4-20
1	18	Hysteresis at position control switching	0 to 20000	0			—		○			○
1	19	Position gain switching time	0 to 10000	10			0.1ms^*		○			○
1	20	Mode of velocity control switching	0 to 5	0			—			○			4-21
1	21	Delay time of velocity control switching	0 to 10000	0			0.1ms^*			○
1	22	Level of velocity control switching	0 to 20000	0			—			○
1	23	Hysteresis at velocity control switching	0 to 20000	0			—			○			4-22
1	24	Mode of torque control switching	0 to 3	0			—				○
1	25	Delay time of torque control switching	0 to 10000	0			0.1ms^*				○
1	26	Level of torque control switching	0 to 20000	0			—				○
1	27	Hysteresis at torque control switching	0 to 20000	0			—				○
1	28	For manufacturer's use	—	1000			—
1	29	For manufacturer's use	—	1000			—
1	30	For manufacturer's use	—	0			—
1	31	For manufacturer's use	—	480		320	—
1	32	For manufacturer's use	—	270		180	—
1	33	For manufacturer's use	—	210		310	—
1	34	For manufacturer's use	—	84		126	—
1	35	For manufacturer's use	—	250			—
1	36	For manufacturer's use	—	1000			—
1	37	For Manufacturer's use	—	1000			—
1	38	For manufacturer's use	—	0			—
1	39	For manufacturer's use	—	480		320	—
1	40	For manufacturer's use	—	270		180	—
1	41	For manufacturer's use	—	210		310	—
1	42	For manufacturer's use	—	84		126
1	43	For manufacturer's use	—	250			—
1	44	For manufacturer's use	—	1000			—
1	45	For manufacturer's use	—	1000			—
1	46	For manufacturer's use	—	0			—
1	47	For manufacturer's use	—	480		320	320
1	48	For manufacturer's use	—	270		180	—
1	49	For manufacturer's use	—	210		310	—
1	50	For manufacturer's use	—	84		126	—
1	51	For manufacturer's use	—	250			—
1	52	For manufacturer's use	—	1000			—
1	53	For manufacturer's use	—	1000			—
1	54	For manufacturer's use	—	0			—
1	55	For manufacturer's use	—	480		320	—
1	56	For manufacturer's use	—	270	180	—
1	57	For manufacturer's use	—	210		310	—
1	58	For manufacturer's use	—	84		126	—
1	59	For manufacturer's use	—	250			—
1	60	For manufacturer's use	—	1000			—
1	61	For manufacturer's use	—	1000			—
1	62	For manufacturer's use	—	0			—
1	63	For manufacturer's use	—	480		320	—
1	64	For manufacturer's use	—	270		180	—
1	65	For manufacturer's use	—	210		310	—
1	66	For manufacturer's use	—	84		126	—
1	67	For manufacturer's use	—	250			—
1	68	For manufacturer's use	—	1000			—
1	69	For manufacturer's use	—	1000			—
1	70	For manufacturer's use	—	0			—
1	71	For manufacturer's use	—	480		320	—
1	72	For manufacturer's use	—	270		180	—
1	73	For manufacturer's use	—	210		310	—
1	74	For manufacturer's use	—	84		126	—
1	75	For manufacturer's use	—	250			—
1	76	For manufacturer's use	—	1000			—
1	77	For manufacturer's use	—	1000			—
1	78	For manufacturer's use	—	0			—

Hybrid Injection Molding Machine for Laboratory Consumable Petri Dish Injection Molding -- HD210LDY-B

HD210LDY-B

HD210LDY -- HaiDa Hybrid Injection Molding Machine

No.	Name	Value
1	Clamping Force	2100 kN
2	Shot Weight	326 g
3	Shot Speed	200 mm/s
4	Screw Diameter	45 mm
5	Opening Stroke	500 mm
6	Space Between Tie Bars	530 x 530 mm
7	Mold Thickness (Min)	200 mm
8	Mold Thickness (Max)	550 mm
9	Pumper Motor	90 kW
10	Heating Capacity	16 kW

Injection Automation Application -- Side Entry Petri Dishs Injection Molding Automation Solution

SIDE ENTRY PETRI DISH PACKING SOLUTION

Introduction of SWITEK Side Entry Petri Dish Packing System

The SWITEK side entry petri dish packing system is a custom made automation system for the stable production of laboratory consumable plastic petri dish with the picking robot, the petri dish assembly, stacking, packing unit etc. integrated as auniformed system for the efficient and stable production of the petri dish. The system can be custome made for a petri dish mold layout design of 2+2, 4+4, 6+6, 8+8 etc.

Functional Units of SWITEK Top Entry Petri Dish Packing System

(1) -- Side Entry Robotic Arm: The picking arm of the packing system in handling the picking of the petri dish from the injection molding machine and place them on the assembly unit.
(2) -- Injection Mold: The core injection unit to shape the petri dish, it can be 2+2, 4+4, 6+6, 8+8 configuragion of the petri covers and bottoms.
(3) -- Petri Dish Assembly Unit: Have the cover and bottom of the petri dish assembled and drop it on the conveyor.
(4) -- Sorting Conveyor: Lined the assembled petri dish sets for stacking before packing.
(5) -- Stacking Station: Have the well assembled petri dishes stacked up as requested (5/10/15/20/25 sets etc.).
(6) -- Petri Dish Packing Unit: Have the well stacked petri dish packed and sealed with optional function of vacuume the bag.
(7) -- Petri Dish Transfer Robot: Catch the well sealed petri dish bag and drop it to the conveyor.
(8) -- Petri Dish Dropping Conveyor: Deliver the well packed petri dish.
(9) -- Injection Molding Machine: The injection unit of the whole syste.

Installation Dimension of SWITEK Side Entry Petri Dish Packing System

Productivity of SWITEK Side Entry Petri Dish Packing Solutions

Vacuumed Sleeve Packing

10 Sets/Bag --Injection Cycle time: 9s
20 Sets/Bag --Injection cycle: 6s
25 Sets/Bag --Injection Cycle: 5.5s

Non-vacuumed Sleeve Packing

10 Sets/Bag --Injection Cycle time: 6.5s
20 Sets/Bag --Injection cycle: 6s
25 Sets/Bag --Injection Cycle: 5.5s

Mold Layout Design & Sleeve Size for the Petri Dish Packing System

Mold Layout Deisgn

Sleeve Size for Package with Vacuum Request

Sleeve Size for Package without Vacuum Request

Sleeve (With Mark) Size for Package with Vacuum Request

Sleeve (With Mark) Size for Package without Vacuum Request

I think you'll have an overall understanding about the SWITEK top/side entry petri dish packing system. If you still have any other question about it or need any help in your petri dish production project, please feel free to contact SWITEK laboratory consumable plastic parts injection molding solutions team for more information.

Panasonic A6 Servo Motor and Driver Instruction &mdash; List of Parameters/[Class 1] Gain adjustment

HIGH SPEED IML ROBOT

Panasonic A6 Servo Motor and Driver Instruction — List of Parameters/[Class 1] Gain adjustment

Abstract

[Class 1] Gain adjustment

List of Parameters

Hybrid Injection Molding Machine for Laboratory Consumable Petri Dish Injection Molding -- HD210LDY-B

HD210LDY-B

Injection Automation Application -- Side Entry Petri Dishs Injection Molding Automation Solution

SIDE ENTRY PETRI DISH PACKING SOLUTION

Introduction of SWITEK Side Entry Petri Dish Packing System

Functional Units of SWITEK Top Entry Petri Dish Packing System

Installation Dimension of SWITEK Side Entry Petri Dish Packing System

Productivity of SWITEK Side Entry Petri Dish Packing Solutions

Mold Layout Design & Sleeve Size for the Petri Dish Packing System

Contact SWITEK On WhatsApp

Panasonic A6 Servo Motor and Driver Instruction — List of Parameters/[Class 1] Gain adjustment