The DigiFlex® PerformanceTM Servo Drive DZCANTU-040B080 is a fully digital servo drive designed to drive brushed and brushless servomotors. It operates in torque, velocity, or position mode using space vector modulation for higher efficiency. The drive features a CANopen interface, configurable I/O, and is programmed using DriveWare® 7 software. It can provide up to 40A of peak current from a compact 88.9mm x 63.5mm x 20.1mm package suitable for embedded applications.
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A presentation about the usage and availability of Varnish on Kubernetes. This talk explores the capabilities of Varnish caching and shows how to use the Varnish Helm chart to deploy it to Kubernetes.
This presentation was delivered at K8SUG Singapore. See https://feryn.eu/presentations/accelerate-your-kubernetes-clusters-with-varnish-caching-k8sug-singapore-28-2024 for more details.
Smart TV Buyer Insights Survey 2024 by 91mobiles.pdf91mobiles
91mobiles recently conducted a Smart TV Buyer Insights Survey in which we asked over 3,000 respondents about the TV they own, aspects they look at on a new TV, and their TV buying preferences.
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Keynote at DIGIT West Expo, Glasgow on 29 May 2024.
Cheryl Hung, ochery.com
Sr Director, Infrastructure Ecosystem, Arm.
The key trends across hardware, cloud and open-source; exploring how these areas are likely to mature and develop over the short and long-term, and then considering how organisations can position themselves to adapt and thrive.
Connector Corner: Automate dynamic content and events by pushing a buttonDianaGray10
Here is something new! In our next Connector Corner webinar, we will demonstrate how you can use a single workflow to:
Create a campaign using Mailchimp with merge tags/fields
Send an interactive Slack channel message (using buttons)
Have the message received by managers and peers along with a test email for review
But there’s more:
In a second workflow supporting the same use case, you’ll see:
Your campaign sent to target colleagues for approval
If the “Approve” button is clicked, a Jira/Zendesk ticket is created for the marketing design team
But—if the “Reject” button is pushed, colleagues will be alerted via Slack message
Join us to learn more about this new, human-in-the-loop capability, brought to you by Integration Service connectors.
And...
Speakers:
Akshay Agnihotri, Product Manager
Charlie Greenberg, Host
State of ICS and IoT Cyber Threat Landscape Report 2024 previewPrayukth K V
The IoT and OT threat landscape report has been prepared by the Threat Research Team at Sectrio using data from Sectrio, cyber threat intelligence farming facilities spread across over 85 cities around the world. In addition, Sectrio also runs AI-based advanced threat and payload engagement facilities that serve as sinks to attract and engage sophisticated threat actors, and newer malware including new variants and latent threats that are at an earlier stage of development.
The latest edition of the OT/ICS and IoT security Threat Landscape Report 2024 also covers:
State of global ICS asset and network exposure
Sectoral targets and attacks as well as the cost of ransom
Global APT activity, AI usage, actor and tactic profiles, and implications
Rise in volumes of AI-powered cyberattacks
Major cyber events in 2024
Malware and malicious payload trends
Cyberattack types and targets
Vulnerability exploit attempts on CVEs
Attacks on counties – USA
Expansion of bot farms – how, where, and why
In-depth analysis of the cyber threat landscape across North America, South America, Europe, APAC, and the Middle East
Why are attacks on smart factories rising?
Cyber risk predictions
Axis of attacks – Europe
Systemic attacks in the Middle East
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https://sectrio.com/resources/ot-threat-landscape-reports/sectrio-releases-ot-ics-and-iot-security-threat-landscape-report-2024/
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After immersing yourself in the blue book and its red counterpart, attending DDD-focused conferences, and applying tactical patterns, you're left with a crucial question: How do I ensure my design is effective? Tactical patterns within Domain-Driven Design (DDD) serve as guiding principles for creating clear and manageable domain models. However, achieving success with these patterns requires additional guidance. Interestingly, we've observed that a set of constraints initially designed for training purposes remarkably aligns with effective pattern implementation, offering a more ‘mechanical’ approach. Let's explore together how Object Calisthenics can elevate the design of your tactical DDD patterns, offering concrete help for those venturing into DDD for the first time!
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Get an exclusive demo of the new family of UiPath LLMs – GenAI models specialized for processing different types of documents and messages
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https://alandix.com/academic/papers/synergy2024-epistemic/
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https://arxiv.org/abs/2306.08302
2. Microsoft Research's GraphRAG paper and a review paper on various uses of knowledge graphs:
https://www.microsoft.com/en-us/research/blog/graphrag-unlocking-llm-discovery-on-narrative-private-data/
1. DigiFlex® Performance™ Servo Drive DZCANTU-040B080
Description
Power Range
The DZCANTU-040B080 digital servo drive is designed to drive brushed and brushless servomotors from a compact form factor ideal for embedded applications. This fully digital drive operates in torque, velocity, or position mode and employs Space Vector Modulation (SVM), which results in higher bus voltage utilization and reduced heat dissipation compared to traditional PWM. The drive can be configured for a variety of external command signals. Commands can also be configured using the drive’s built-in Motion Engine, an internal motion controller used with distributed motion applications. In addition to motor control, this drive features dedicated and programmable digital and analog inputs and outputs to enhance interfacing with external controllers and devices.
The DZCANTU-040B080 features a CANopen interface for networking, and a USB interface for drive configuration and setup. Drive commissioning is accomplished using DriveWare® 7, available for download at www.a-m-c.com.
All drive and motor parameters are stored in non- volatile memory.
Peak Current 40 A (28.3 ARMS)
Continuous Current 20 A (20 ARMS)
Supply Voltage 18 - 80 VDC
Features
Four Quadrant Regenerative Operation
Space Vector Modulation (SVM) Technology
Fully Digital State-of-the-art Design
Programmable Gain Settings
Fully Configurable Current, Voltage, Velocity and Position Limits
PIDF Velocity Loop
PID + FF Position Loop
Compact Size, High Power Density
12-bit Analog to Digital Hardware
On-the-Fly Mode Switching
On-the-Fly Gain Set Switching
MODES OF OPERATION
Profile Current
Profile Position
Profile Velocity
Cyclic Synchronous Current Mode
Cyclic Synchronous Velocity Mode
Cyclic Synchronous Position Mode
COMMAND SOURCE
±10 V Analog
Encoder Following
Over the Network
Sequencing
Indexing
Jogging
FEEDBACK SUPPORTED (FIRMWARE DEPENDENT)
Halls
Incremental Encoder
Auxiliary Incremental Encoder
1Vp-p Sine/Cosine Encoder (see note 4 on page 3)
Absolute Encoder (Heidenhain EnDat® or Stegmann Hiperface® or BiSS C-Mode)
±10 VDC Position
Tachometer (±10 VDC)
INPUTS/OUTPUTS
1 Programmable Analog Input (12-bit Resolution)
5 Programmable Digital Inputs (Differential)
3 Programmable Digital Inputs (Single-Ended)
5 Programmable Digital Outputs (Single-Ended)
3 High Speed Captures
COMPLIANCES & AGENCY APPROVALS
RoHS
UL/cUL Pending
CE Pending ELECTROMATE
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2. DigiFlex® Performance™ Servo Drive DZCANTU-040B080
BLOCK DIAGRAM
PAI-1 + (REF+) PAI-1 – (REF–) I/O InterfaceI/O Interface DriveLogic6.7k6.7kMOTOR THERMISTORDATA- DATA+ USB GNDUSB InterfaceVBUSDATA,CLOCK+ DATA,CLOCK- Motor Feedback GNDGP PDO-1,2,3,4,520k+5VGP PDI-1,2,3PDI-4,5PDI-4,5HIGH VOLTAGEMOTOR AMOTOR BMOTOR CAUX SUPPLY INPUTGNDPower StageLogic PowerCAN BAUD, ADDR0 / ADDR1ENC A,B,I +/SIN+/COS+ ENC A,B,I –/SIN-/COS- HALL A,B,CGND20k+5VAUX ENC A,B,I+/PDI+ AUX ENC A,B,I-/PDI- AMP STATUS LEDCAN_RXCAN_TXCANopenInterface500k10k
Information on Approvals and Compliances
RoHS (Reduction of Hazardous Substances) is intended to prevent hazardous substances such as lead from being manufactured in electrical and electronic equipment.
ELECTROMATE
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3. DigiFlex® Performance™ Servo Drive DZCANTU-040B080
SPECIFICATIONS
Power Specifications
Description
Units
Value
DC Supply Voltage Range
VDC
18 - 80
DC Bus Over Voltage Limit
VDC
89
DC Bus Under Voltage Limit
VDC
16
Logic Supply Voltage
VDC
18 - 80
Maximum Peak Output Current1
A (Arms)
40 (28.3)
Maximum Continuous Output Current2
A (Arms)
20 (20)
Maximum Continuous Output Power
W
1520
Maximum Power Dissipation at Continuous Current
W
80
Internal Bus Capacitance
μF
145
Minimum Load Inductance (Line-To-Line)3
μH
250
Switching Frequency
kHz
20
Maximum Output PWM Duty Cycle
%
85
Control Specifications
Description
Units
Value
Communication Interfaces
-
CANopen (USB for configuration)
Command Sources
-
±10 V Analog, Encoder Following, Over the Network, Sequencing, Indexing, Jogging
Feedback Supported (Firmware Dependent) 4
-
Auxiliary Incremental Encoder, Halls, Incremental Encoder, 1Vp-p Sine/Cosine Encoder, Absolute Encoder (Heidenhain EnDat®, Stegmann Hiperface®, or BiSS C-Mode), ±10 VDC Position, Tachometer (±10 VDC)
Commutation Methods
-
Sinusoidal, Trapezoidal
Modes of Operation
-
Profile Current, Profile Velocity, Profile Position, Cyclic Synchronous Current, Cyclic Synchronous Velocity, Cyclic Synchronous Position
Motors Supported
-
Closed Loop Vector, Single Phase (Brushed, Voice Coil, Inductive Load), Three Phase (Brushless)
Hardware Protection
-
40+ Configurable Functions, Over Current, Over Temperature (Drive & Motor), Over Voltage, Short Circuit (Phase-Phase & Phase-Ground), Under Voltage
Programmable Digital Inputs/Outputs (PDIs/PDOs)
-
8/5
Programmable Analog Inputs/Outputs (PAIs/PAOs)
-
1/0
Primary I/O Logic Level
-
5V TTL
Current Loop Sample Time
μs
50
Velocity Loop Sample Time
μs
100
Position Loop Sample Time
μs
100
Maximum Encoder Frequency
MHz
20 (5 pre-quadrature)
Mechanical Specifications
Description
Units
Value
Agency Approvals
-
RoHS, UL/cUL Pending, CE Pending
Size (H x W x D)
mm (in)
88.9 x 63.5 x 20.1 (3.5 x 2.5 x 0.8)
Weight
g (oz)
124.7 (4.4)
Baseplate Operating Temperature Range5
°C (°F)
0 - 75 (32 - 167)
Storage Temperature Range
°C (°F)
-20 - 85 (-4 - 185)
Relative Humidity
-
0 - 90% non-condensing
Altitude
m (ft)
0 - 4000 (0 - 13123)
Cooling System
-
Natural Convection
Form Factor
-
PCB Mounted
P1 Connector
-
68-pin, 1.27 mm spaced, dual-row header
P2 Connector
-
50-pin, 2.0 mm spaced, dual-row header
Notes
1. Capable of supplying drive rated peak current for 2 seconds with 10 second foldback to continuous value. Longer times are possible with lower current limits.
2. Continuous Arms value attainable when RMS Charge-Based Limiting is used.
3. Lower inductance is acceptable for bus voltages well below maximum. Use external inductance to meet requirements.
4. Contact ADVANCED Motion Controls for 1Vp-p Sine/Cosine Encoder feedback availability.
5. Additional cooling and/or heatsink may be required to achieve rated performance.
ELECTROMATE
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4. DigiFlex® Performance™ Servo Drive DZCANTU-040B080
PIN FUNCTIONS
P1 - Signal Connector
Pin
Name
Description / Notes
I/O
Pin
Name
Description / Notes
I/O
1
RESERVED
Reserved. Do not connect.
-
2
CAN BAUD
CAN Bus Bit Rate Selector
I
3
PAI-1-
Differential Programmable Analog Input or Reference Signal Input (12-bit Resolution)
I
4
ADDR1
CAN Bus Address Selector
I
5
PAI-1+
I
6
ADDR0
I
7
GROUND
Ground
GND
8
GROUND
Ground
GND
9
MOT ENC B- / COS-
Primary Incremental Encoder or Cos Input from feedback device (Absolute or Sin/Cos 1Vp-p)
I
10
MOT ENC A- / SIN-
Primary Incremental Encoder or Sin Input from feedback device (Absolute or Sin/Cos 1Vp-p)
I
11
MOT ENC B+ / COS+
I
12
MOT ENC A+ / SIN+
I
13
GROUND
Ground
GND
14
+5V OUT
+5V User Supply
O
15
MOTOR THERMISTOR
Motor Thermistor Input
I
16
GROUND
Ground
GND
17
MOT ENC CLK-
Serial Interface (RS485) for absolute feedback device
I/O
18
MOT ENC DATA-
Serial Interface (RS485) for absolute feedback device
I/O
19
MOT ENC CLK+
I/O
20
MOT ENC DATA+
I/O
21
MOT ENC I-
Differential Incremental Encoder Channel I
I
22
AUX ENC B-
Auxiliary Incremental Encoder Channel B or Differential Programmable Digital Input 7
I
23
MOT ENC I+
I
24
AUX ENC B+
I
25
AUX ENC I-
Auxiliary Incremental Encoder Channel I or Differential Programmable Digital Input 8
I
26
AUX ENC A-
Auxiliary Incremental Encoder Channel A or Differential Programmable Digital Input 6
I
27
AUX ENC I+
I
28
AUX ENC A+
I
29
+5V OUT
+5V User Supply
O
30
HALL B
Single-ended Commutation Sensor Inputs
I
31
HALL C
Single-ended Commutation Sensor Inputs
I
32
HALL A
I
33
PDI5-
Differential Programmable Digital Input 5
(High Speed Capture)
I
34
PDI4-
Differential Programmable Digital Input 4
(High Speed Capture)
I
35
PDI5+
I
36
PDI4+
I
37
GP PDO-5
General Purpose Programmable Digital Output
O
38
GP PDI-3
General Purpose Programmable Digital Input (High Speed Capture)
I
39
GP PDO-4
General Purpose Programmable Digital Output
O
40
GP PDI-2
General Purpose Programmable Digital Input
I
41
GP PDO-3
General Purpose Programmable Digital Output
O
42
GP PDI-1
General Purpose Programmable Digital Input
I
43
GP PDO-2
General Purpose Programmable Digital Output
O
44
AMP STATUS LED-
AMP Status LED Output for Bi-Color LED
O
45
GP PDO-1
General Purpose Programmable Digital Output
O
46
AMP STATUS LED+
O
47
RESERVED
Reserved. Do not connect.
-
48
RESERVED
Reserved. Do not connect.
-
49
+5V USB
USB Supply
O
50
DATA- USB
USB Data Channel
I/O
51
GND USB
USB Ground
UGND
52
DATA+ USB
I/O
53
GROUND
Ground
GND
54
GROUND
Ground
GND
55
RESERVED
Reserved. Do not connect.
-
56
CAN_LOW
CAN_L bus line (dominant low)
I/O
57
RESERVED
-
58
CAN_HIGH
CAN_H bus line (dominant high)
I/O
59
GROUND
Ground
GND
60
RESERVED
Reserved. Do not connect.
-
61
RESERVED
Reserved. Do not connect.
-
62
RESERVED
-
63
RESERVED
Reserved. Do not connect.
-
64
RESERVED
-
65
RESERVED
Reserved. Do not connect.
-
66
RESERVED
-
67
GROUND
Ground
GND
68
GROUND
Ground
GND
P2 - Power Connector
Pin
Name
Description / Notes
I/O
1
AUX SUPPLY INPUT
Auxiliary Supply Input for Logic backup (Optional)
I
2
AUX SUPPLY INPUT
I
3-10
HIGH VOLTAGE
DC Power Input
I
11
NC
Not Connected
-
12
NC
-
13-20
GROUND
Ground connection for input power
GND
21
NC
Not Connected
-
22
NC
-
23-30
MOTOR A
Motor Phase A. Current output distributed equally across 8 pins per motor phase, 3A Continuous Current Rating Per Pin.
O
31
NC
Not Connected
-
32
NC
-
33-40
MOTOR B
Motor Phase B. Current output distributed equally across 8 pins per motor phase, 3A Continuous Current Rating Per Pin.
O
41
NC
Not Connected
-
42
NC
-
43-50
MOTOR C
Motor Phase C. Current output distributed equally across 8 pins per motor phase, 3A Continuous Current Rating Per Pin.
O ELECTROMATE
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5. DigiFlex® Performance™ Servo Drive DZCANTU-040B080
Pin Details
ADDR0 (P1-6); ADDR1 (P1-4)
ADDR0, as well as ADDR1, are used for CAN bus addressing. To set the CAN node address of a drive, apply a fixed voltage to the ADDR0 and ADDR1 pins to determine a node ID. ADDR0 sets the lower 4 bits of the address, and ADDR1 sets the upper 4 bits of the address. The values for ADDR0 and ADDR1 are always integer multiples of 1/5 V within the range 0-3 V. Examples of the voltages required to set certain node ID’s are given in the table below. Note that setting the address to 000 or any addresses above 127 will utilize the address stored in non-volatile memory.
ADDR1 Voltage
(Volts)
ADDR1 Value
(Hex)
ADDR0 Voltage
(Volts)
ADDR0 Value
(Hex)
CAN Address (Node #)
(Decimal)
0
0
0
0
Address stored in non-volatile memory
0
0
0.2
1
001
0
0
0.4
2
002
0
0
0.6
3
003
…
…
…
…
…
1.4
7
2.8
E
126
1.4
7
3
F
127
1.6
8
0
0
Address stored in non-volatile memory
…
…
…
…
…
3
F
3
F
Address stored in non-volatile memory
CAN BAUD (P1-2)
The CAN bitrate is set by applying the appropriate voltage to the CAN BAUD pin as given in the table below.
CAN BAUD Value (V)
CAN BAUD Tolerance (V)
CAN Bus Bitrate (bits/s)
0
±0.388
Bit rate stored in non-volatile memory
1
±0.388
500k
2
±0.388
250k
3
±0.388
125k
ELECTROMATE
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6. DigiFlex® Performance™ Servo Drive DZCANTU-040B080
MECHANICAL INFORMATION
P1 - Signal Connector
Connector Information
68-pin, 1.27mm spaced, dual-row header
Mating Connector
Details
Samtec: CLP-134-02-F-D-BE-A-K
Included with Drive
No
RESERVED1CAN BAUD2PAI-1-3ADDR24PAI-1+5ADDR16RESERVED64RESERVED66GROUND68GROUND67RESERVED65RESERVED63... ... ... ...
P2 - Power Connector
Connector Information
50-pin, 2.0mm spaced, dual-row header
Mating Connector
Details
Samtec: CLT-125-02-F-D-BE-A-K
Included with Drive
No
AUX SUPPLY INPUT1AUX SUPPLY INPUT2HIGH VOLTAGE3HIGH VOLTAGE4HIGH VOLTAGE5HIGH VOLTAGE6MOTOR C46MOTOR C48MOTOR C50MOTOR C49MOTOR C47MOTOR C45... ... ... ...
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8. DigiFlex® Performance™ Servo Drive DZCANTU-040B080
PART NUMBERING INFORMATION
- DigiFlex Z (PCB Mount) CZDTNAU040B080Example: DZCANopenCAnalog (±10V) No Step & DirectionANDigital I/OTTL (5V) Non-IsolatedTMax DC Bus Voltage (VDC) Peak Current (A0 to Peak) 8008020020EtherCATEUniversal (Halls, Inc. Enc., Abs. Enc, 1Vp-p Sin/Cos Enc.)UMotor FeedbackCommand InputsCommunicationDrive SeriesPower and Logic SupplyDC InputBoth Logic Supply Options (Internal or User)BEtherCAT Sub-nodeS4004060060175200
DigiFlex® Performance™ series of products are available in many configurations. Note that not all possible part number combinations are offered as standard drives. All models listed in the selection tables of the website are readily available, standard product offerings.
ADVANCED Motion Controls also has the capability to promptly develop and deliver specified products for OEMs with volume requests. Our Applications and Engineering Departments will work closely with your design team through all stages of development in order to provide the best servo drive solution for your system. Equipped with on-site manufacturing for quick- turn customs capabilities, ADVANCED Motion Controls utilizes our years of engineering and manufacturing expertise to decrease your costs and time-to-market while increasing system quality and reliability.
Examples of Customized Products
Optimized Footprint
Tailored Project File
Private Label Software
Silkscreen Branding
OEM Specified Connectors
Optimized Base Plate
No Outer Case
Increased Current Limits
Increased Current Resolution
Increased Voltage Range
Increased Temperature Range
Conformal Coating
Custom Control Interface
Multi-Axis Configurations
Integrated System I/O
Reduced Profile Size and Weight
Feel free to contact Applications Engineering for further information and details.
Available Accessories
ADVANCED Motion Controls offers a variety of accessories designed to facilitate drive integration into a servo system.
Visit www.a-m-c.com to see which accessories will assist with your application design and implementation.
Power Supplies
Shunt Regulators
Mounting Card
MC1XDZPC01
Filter Cards
To Motor
Drive(s)
All specifications in this document are subject to change without written notice. Actual product may differ from pictures provided in this document.
ELECTROMATE
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