Manual Easy Book A5E02486774-03; 07/2011 I IA AS S ID

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Specifications	Manual Easy Book A5E02486774-03; 07/2011 I IA AS S ID
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Programming made easy 6.6 High-speed counter (HSC) Easy Book 112 Manual, 07/2011, A5E02486774-03 6.6.1 Operation of the HSC T

Specifications	Manual Easy Book A5E02486774-03; 07/2011 I IA AS S ID
Outline	Easy Book Legal information Preface Table of contents 1 Introducing the powerful and flexible S7-1200 1.1 Introducing the S7-1200 PLC 1.2 Expansion capability of the CPU 1.3 S7-1200 modules 1.4 Basic HMI panels 1.5 Mounting dimensions and clearance requirements 1.6 New features for S7-1200 and STEP 7 V11 4 PLC concepts made easy 4.1 Tasks performed every scan cycle 4.2 Operating modes of the CPU 4.3 Execution of the user program 4.3.1 Processing the scan cycle in RUN mode 4.3.2 OBs help you structure your user program 4.3.3 Event execution priorities and queuing 4.5 Pulse outputs 3 Getting started 3.1 Create a project 3.2 Create tags for the I/O of the CPU 3.3 Create a simple network in your user program 3.4 Use the PLC tags in the tag table for addressing the instructions 3.5 Add a box instruction 3.6 Use the CALCULATE instruction for a complex mathematical equation 3.7 Add an HMI device to the project 3.8 Create a network connection between the CPU and HMI device 3.9 Create an HMI connection to share tags 3.10 Create an HMI screen 3.11 Select a PLC tag for the HMI element 9 Web server for easy Internet connectivity 9.1 Easy to use the standard web pages 9.2 Constraints that can affect the use of the Web server 9.2.1 Constraints when JavaScript is disabled 9.2.2 Features restricted when cookies are not allowed 1 Introducing the powerful and flexible S7-1200 1.1 Introducing the S7-1200 PLC 1.2 Expansion capability of the CPU 1.3 S7-1200 modules 1.4 Basic HMI panels 1.5 Mounting dimensions and clearance requirements 1.6 New features for S7-1200 and STEP 7 V11 4 PLC concepts made easy 4.1 Tasks performed every scan cycle 4.2 Operating modes of the CPU 4.3 Execution of the user program 4.3.1 Processing the scan cycle in RUN mode 4.3.2 OBs help you structure your user program 4.3.3 Event execution priorities and queuing 4.5 Pulse outputs 3 Getting started 3.1 Create a project 3.2 Create tags for the I/O of the CPU 3.3 Create a simple network in your user program 3.4 Use the PLC tags in the tag table for addressing the instructions 3.5 Add a box instruction 3.6 Use the CALCULATE instruction for a complex mathematical equation 3.7 Add an HMI device to the project 3.8 Create a network connection between the CPU and HMI device 3.9 Create an HMI connection to share tags 3.10 Create an HMI screen 3.11 Select a PLC tag for the HMI element 9 Web server for easy Internet connectivity 9.1 Easy to use the standard web pages 9.2 Constraints that can affect the use of the Web server 9.2.1 Constraints when JavaScript is disabled 9.2.2 Features restricted when cookies are not allowed 1 Introducing the powerful and flexible S7-1200 1.1 Introducing the S7-1200 PLC 1.2 Expansion capability of the CPU 1.3 S7-1200 modules 1.4 Basic HMI panels 1.5 Mounting dimensions and clearance requirements 1.6 New features for S7-1200 and STEP 7 V11 4 PLC concepts made easy 4.1 Tasks performed every scan cycle 4.2 Operating modes of the CPU 4.3 Execution of the user program 4.3.1 Processing the scan cycle in RUN mode 4.3.2 OBs help you structure your user program 4.3.3 Event execution priorities and queuing 4.5 Pulse outputs 3 Getting started 3.1 Create a project 3.2 Create tags for the I/O of the CPU 3.3 Create a simple network in your user program 3.4 Use the PLC tags in the tag table for addressing the instructions 3.5 Add a box instruction 3.6 Use the CALCULATE instruction for a complex mathematical equation 3.7 Add an HMI device to the project 3.8 Create a network connection between the CPU and HMI device 3.9 Create an HMI connection to share tags 3.10 Create an HMI screen 3.11 Select a PLC tag for the HMI element 9 Web server for easy Internet connectivity 9.1 Easy to use the standard web pages 9.2 Constraints that can affect the use of the Web server 9.2.1 Constraints when JavaScript is disabled 9.2.2 Features restricted when cookies are not allowed 1 Introducing the powerful and flexible S7-1200 1.1 Introducing the S7-1200 PLC 1.2 Expansion capability of the CPU 1.3 S7-1200 modules 1.4 Basic HMI panels 1.5 Mounting dimensions and clearance requirements 1.6 New features for S7-1200 and STEP 7 V11 4 PLC concepts made easy 4.1 Tasks performed every scan cycle 4.2 Operating modes of the CPU 4.3 Execution of the user program 4.3.1 Processing the scan cycle in RUN mode 4.3.2 OBs help you structure your user program 4.3.3 Event execution priorities and queuing 4.5 Pulse outputs 3 Getting started 3.1 Create a project 3.2 Create tags for the I/O of the CPU 3.3 Create a simple network in your user program 3.4 Use the PLC tags in the tag table for addressing the instructions 3.5 Add a box instruction 3.6 Use the CALCULATE instruction for a complex mathematical equation 3.7 Add an HMI device to the project 3.8 Create a network connection between the CPU and HMI device 3.9 Create an HMI connection to share tags 3.10 Create an HMI screen 3.11 Select a PLC tag for the HMI element 9 Web server for easy Internet connectivity 9.1 Easy to use the standard web pages 9.2 Constraints that can affect the use of the Web server 9.2.1 Constraints when JavaScript is disabled 9.2.2 Features restricted when cookies are not allowed 1 Introducing the powerful and flexible S7-1200 1.1 Introducing the S7-1200 PLC 1.2 Expansion capability of the CPU 1.3 S7-1200 modules 1.4 Basic HMI panels 1.5 Mounting dimensions and clearance requirements 1.6 New features for S7-1200 and STEP 7 V11 4 PLC concepts made easy 4.1 Tasks performed every scan cycle 4.2 Operating modes of the CPU 4.3 Execution of the user program 4.3.1 Processing the scan cycle in RUN mode 4.3.2 OBs help you structure your user program 4.3.3 Event execution priorities and queuing 4.5 Pulse outputs 3 Getting started 3.1 Create a project 3.2 Create tags for the I/O of the CPU 3.3 Create a simple network in your user program 3.4 Use the PLC tags in the tag table for addressing the instructions 3.5 Add a box instruction 3.6 Use the CALCULATE instruction for a complex mathematical equation 3.7 Add an HMI device to the project 3.8 Create a network connection between the CPU and HMI device 3.9 Create an HMI connection to share tags 3.10 Create an HMI screen 3.11 Select a PLC tag for the HMI element 9 Web server for easy Internet connectivity 9.1 Easy to use the standard web pages 9.2 Constraints that can affect the use of the Web server 9.2.1 Constraints when JavaScript is disabled 9.2.2 Features restricted when cookies are not allowed 1 Introducing the powerful and flexible S7-1200 1.1 Introducing the S7-1200 PLC 1.2 Expansion capability of the CPU 1.3 S7-1200 modules 1.4 Basic HMI panels 1.5 Mounting dimensions and clearance requirements 1.6 New features for S7-1200 and STEP 7 V11 4 PLC concepts made easy 4.1 Tasks performed every scan cycle 4.2 Operating modes of the CPU 4.3 Execution of the user program 4.3.1 Processing the scan cycle in RUN mode 4.3.2 OBs help you structure your user program 4.3.3 Event execution priorities and queuing 4.5 Pulse outputs 3 Getting started 3.1 Create a project 3.2 Create tags for the I/O of the CPU 3.3 Create a simple network in your user program 3.4 Use the PLC tags in the tag table for addressing the instructions 3.5 Add a box instruction 3.6 Use the CALCULATE instruction for a complex mathematical equation 3.7 Add an HMI device to the project 3.8 Create a network connection between the CPU and HMI device 3.9 Create an HMI connection to share tags 3.10 Create an HMI screen 3.11 Select a PLC tag for the HMI element 9 Web server for easy Internet connectivity 9.1 Easy to use the standard web pages 9.2 Constraints that can affect the use of the Web server 9.2.1 Constraints when JavaScript is disabled 9.2.2 Features restricted when cookies are not allowed 1 Introducing the powerful and flexible S7-1200 1.1 Introducing the S7-1200 PLC 1.2 Expansion capability of the CPU 1.3 S7-1200 modules 1.4 Basic HMI panels 1.5 Mounting dimensions and clearance requirements 1.6 New features for S7-1200 and STEP 7 V11 4 PLC concepts made easy 4.1 Tasks performed every scan cycle 4.2 Operating modes of the CPU 4.3 Execution of the user program 4.3.1 Processing the scan cycle in RUN mode 4.3.2 OBs help you structure your user program 4.3.3 Event execution priorities and queuing 4.5 Pulse outputs 3 Getting started 3.1 Create a project 3.2 Create tags for the I/O of the CPU 3.3 Create a simple network in your user program 3.4 Use the PLC tags in the tag table for addressing the instructions 3.5 Add a box instruction 3.6 Use the CALCULATE instruction for a complex mathematical equation 3.7 Add an HMI device to the project 3.8 Create a network connection between the CPU and HMI device 3.9 Create an HMI connection to share tags 3.10 Create an HMI screen 3.11 Select a PLC tag for the HMI element 9 Web server for easy Internet connectivity 9.1 Easy to use the standard web pages 9.2 Constraints that can affect the use of the Web server 9.2.1 Constraints when JavaScript is disabled 9.2.2 Features restricted when cookies are not allowed 1 Introducing the powerful and flexible S7-1200 1.1 Introducing the S7-1200 PLC 1.2 Expansion capability of the CPU 1.3 S7-1200 modules 1.4 Basic HMI panels 1.5 Mounting dimensions and clearance requirements 1.6 New features for S7-1200 and STEP 7 V11 4 PLC concepts made easy 4.1 Tasks performed every scan cycle 4.2 Operating modes of the CPU 4.3 Execution of the user program 4.3.1 Processing the scan cycle in RUN mode 4.3.2 OBs help you structure your user program 4.3.3 Event execution priorities and queuing 4.5 Pulse outputs 3 Getting started 3.1 Create a project 3.2 Create tags for the I/O of the CPU 3.3 Create a simple network in your user program 3.4 Use the PLC tags in the tag table for addressing the instructions 3.5 Add a box instruction 3.6 Use the CALCULATE instruction for a complex mathematical equation 3.7 Add an HMI device to the project 3.8 Create a network connection between the CPU and HMI device 3.9 Create an HMI connection to share tags 3.10 Create an HMI screen 3.11 Select a PLC tag for the HMI element 9 Web server for easy Internet connectivity 9.1 Easy to use the standard web pages 9.2 Constraints that can affect the use of the Web server 9.2.1 Constraints when JavaScript is disabled 9.2.2 Features restricted when cookies are not allowed 1 Introducing the powerful and flexible S7-1200 1.1 Introducing the S7-1200 PLC 1.2 Expansion capability of the CPU 1.3 S7-1200 modules 1.4 Basic HMI panels 1.5 Mounting dimensions and clearance requirements 1.6 New features for S7-1200 and STEP 7 V11 4 PLC concepts made easy 4.1 Tasks performed every scan cycle 4.2 Operating modes of the CPU 4.3 Execution of the user program 4.3.1 Processing the scan cycle in RUN mode 4.3.2 OBs help you structure your user program 4.3.3 Event execution priorities and queuing 4.5 Pulse outputs 3 Getting started 3.1 Create a project 3.2 Create tags for the I/O of the CPU 3.3 Create a simple network in your user program 3.4 Use the PLC tags in the tag table for addressing the instructions 3.5 Add a box instruction 3.6 Use the CALCULATE instruction for a complex mathematical equation 3.7 Add an HMI device to the project 3.8 Create a network connection between the CPU and HMI device 3.9 Create an HMI connection to share tags 3.10 Create an HMI screen 3.11 Select a PLC tag for the HMI element 9 Web server for easy Internet connectivity 9.1 Easy to use the standard web pages 9.2 Constraints that can affect the use of the Web server 9.2.1 Constraints when JavaScript is disabled 9.2.2 Features restricted when cookies are not allowed 1 Introducing the powerful and flexible S7-1200 1.1 Introducing the S7-1200 PLC 1.2 Expansion capability of the CPU 1.3 S7-1200 modules 1.4 Basic HMI panels 1.5 Mounting dimensions and clearance requirements 1.6 New features for S7-1200 and STEP 7 V11 4 PLC concepts made easy 4.1 Tasks performed every scan cycle 4.2 Operating modes of the CPU 4.3 Execution of the user program 4.3.1 Processing the scan cycle in RUN mode 4.3.2 OBs help you structure your user program 4.3.3 Event execution priorities and queuing 4.5 Pulse outputs 3 Getting started 3.1 Create a project 3.2 Create tags for the I/O of the CPU 3.3 Create a simple network in your user program 3.4 Use the PLC tags in the tag table for addressing the instructions 3.5 Add a box instruction 3.6 Use the CALCULATE instruction for a complex mathematical equation 3.7 Add an HMI device to the project 3.8 Create a network connection between the CPU and HMI device 3.9 Create an HMI connection to share tags 3.10 Create an HMI screen 3.11 Select a PLC tag for the HMI element 9 Web server for easy Internet connectivity 9.1 Easy to use the standard web pages 9.2 Constraints that can affect the use of the Web server 9.2.1 Constraints when JavaScript is disabled 9.2.2 Features restricted when cookies are not allowed 1 Introducing the powerful and flexible S7-1200 1.1 Introducing the S7-1200 PLC 1.2 Expansion capability of the CPU 1.3 S7-1200 modules 1.4 Basic HMI panels 1.5 Mounting dimensions and clearance requirements 1.6 New features for S7-1200 and STEP 7 V11 4 PLC concepts made easy 4.1 Tasks performed every scan cycle 4.2 Operating modes of the CPU 4.3 Execution of the user program 4.3.1 Processing the scan cycle in RUN mode 4.3.2 OBs help you structure your user program 4.3.3 Event execution priorities and queuing 4.5 Pulse outputs 3 Getting started 3.1 Create a project 3.2 Create tags for the I/O of the CPU 3.3 Create a simple network in your user program 3.4 Use the PLC tags in the tag table for addressing the instructions 3.5 Add a box instruction 3.6 Use the CALCULATE instruction for a complex mathematical equation 3.7 Add an HMI device to the project 3.8 Create a network connection between the CPU and HMI device 3.9 Create an HMI connection to share tags 3.10 Create an HMI screen 3.11 Select a PLC tag for the HMI element 9 Web server for easy Internet connectivity 9.1 Easy to use the standard web pages 9.2 Constraints that can affect the use of the Web server 9.2.1 Constraints when JavaScript is disabled 9.2.2 Features restricted when cookies are not allowed 1 Introducing the powerful and flexible S7-1200 1.1 Introducing the S7-1200 PLC 1.2 Expansion capability of the CPU 1.3 S7-1200 modules 1.4 Basic HMI panels 1.5 Mounting dimensions and clearance requirements 1.6 New features for S7-1200 and STEP 7 V11 4 PLC concepts made easy 4.1 Tasks performed every scan cycle 4.2 Operating modes of the CPU 4.3 Execution of the user program 4.3.1 Processing the scan cycle in RUN mode 4.3.2 OBs help you structure your user program 4.3.3 Event execution priorities and queuing 4.5 Pulse outputs 3 Getting started 3.1 Create a project 3.2 Create tags for the I/O of the CPU 3.3 Create a simple network in your user program 3.4 Use the PLC tags in the tag table for addressing the instructions 3.5 Add a box instruction 3.6 Use the CALCULATE instruction for a complex mathematical equation 3.7 Add an HMI device to the project 3.8 Create a network connection between the CPU and HMI device 3.9 Create an HMI connection to share tags 3.10 Create an HMI screen 3.11 Select a PLC tag for the HMI element 9 Web server for easy Internet connectivity 9.1 Easy to use the standard web pages 9.2 Constraints that can affect the use of the Web server 9.2.1 Constraints when JavaScript is disabled 9.2.2 Features restricted when cookies are not allowed 1 Introducing the powerful and flexible S7-1200 1.1 Introducing the S7-1200 PLC 1.2 Expansion capability of the CPU 1.3 S7-1200 modules 1.4 Basic HMI panels 1.5 Mounting dimensions and clearance requirements 1.6 New features for S7-1200 and STEP 7 V11 4 PLC concepts made easy 4.1 Tasks performed every scan cycle 4.2 Operating modes of the CPU 4.3 Execution of the user program 4.3.1 Processing the scan cycle in RUN mode 4.3.2 OBs help you structure your user program 4.3.3 Event execution priorities and queuing 4.5 Pulse outputs 3 Getting started 3.1 Create a project 3.2 Create tags for the I/O of the CPU 3.3 Create a simple network in your user program 3.4 Use the PLC tags in the tag table for addressing the instructions 3.5 Add a box instruction 3.6 Use the CALCULATE instruction for a complex mathematical equation 3.7 Add an HMI device to the project 3.8 Create a network connection between the CPU and HMI device 3.9 Create an HMI connection to share tags 3.10 Create an HMI screen 3.11 Select a PLC tag for the HMI element 9 Web server for easy Internet connectivity 9.1 Easy to use the standard web pages 9.2 Constraints that can affect the use of the Web server 9.2.1 Constraints when JavaScript is disabled 9.2.2 Features restricted when cookies are not allowed 1 Introducing the powerful and flexible S7-1200 1.1 Introducing the S7-1200 PLC 1.2 Expansion capability of the CPU 1.3 S7-1200 modules 1.4 Basic HMI panels 1.5 Mounting dimensions and clearance requirements 1.6 New features for S7-1200 and STEP 7 V11 4 PLC concepts made easy 4.1 Tasks performed every scan cycle 4.2 Operating modes of the CPU 4.3 Execution of the user program 4.3.1 Processing the scan cycle in RUN mode 4.3.2 OBs help you structure your user program 4.3.3 Event execution priorities and queuing 4.5 Pulse outputs 3 Getting started 3.1 Create a project 3.2 Create tags for the I/O of the CPU 3.3 Create a simple network in your user program 3.4 Use the PLC tags in the tag table for addressing the instructions 3.5 Add a box instruction 3.6 Use the CALCULATE instruction for a complex mathematical equation 3.7 Add an HMI device to the project 3.8 Create a network connection between the CPU and HMI device 3.9 Create an HMI connection to share tags 3.10 Create an HMI screen 3.11 Select a PLC tag for the HMI element 9 Web server for easy Internet connectivity 9.1 Easy to use the standard web pages 9.2 Constraints that can affect the use of the Web server 9.2.1 Constraints when JavaScript is disabled 9.2.2 Features restricted when cookies are not allowed 1 Introducing the powerful and flexible S7-1200 1.1 Introducing the S7-1200 PLC 1.2 Expansion capability of the CPU 1.3 S7-1200 modules 1.4 Basic HMI panels 1.5 Mounting dimensions and clearance requirements 1.6 New features for S7-1200 and STEP 7 V11 4 PLC concepts made easy 4.1 Tasks performed every scan cycle 4.2 Operating modes of the CPU 4.3 Execution of the user program 4.3.1 Processing the scan cycle in RUN mode 4.3.2 OBs help you structure your user program 4.3.3 Event execution priorities and queuing 4.5 Pulse outputs 3 Getting started 3.1 Create a project 3.2 Create tags for the I/O of the CPU 3.3 Create a simple network in your user program 3.4 Use the PLC tags in the tag table for addressing the instructions 3.5 Add a box instruction 3.6 Use the CALCULATE instruction for a complex mathematical equation 3.7 Add an HMI device to the project 3.8 Create a network connection between the CPU and HMI device 3.9 Create an HMI connection to share tags 3.10 Create an HMI screen 3.11 Select a PLC tag for the HMI element 9 Web server for easy Internet connectivity 9.1 Easy to use the standard web pages 9.2 Constraints that can affect the use of the Web server 9.2.1 Constraints when JavaScript is disabled 9.2.2 Features restricted when cookies are not allowed 1 Introducing the powerful and flexible S7-1200 1.1 Introducing the S7-1200 PLC 1.2 Expansion capability of the CPU 1.3 S7-1200 modules 1.4 Basic HMI panels 1.5 Mounting dimensions and clearance requirements 1.6 New features for S7-1200 and STEP 7 V11 4 PLC concepts made easy 4.1 Tasks performed every scan cycle 4.2 Operating modes of the CPU 4.3 Execution of the user program 4.3.1 Processing the scan cycle in RUN mode 4.3.2 OBs help you structure your user program 4.3.3 Event execution priorities and queuing 4.5 Pulse outputs 3 Getting started 3.1 Create a project 3.2 Create tags for the I/O of the CPU 3.3 Create a simple network in your user program 3.4 Use the PLC tags in the tag table for addressing the instructions 3.5 Add a box instruction 3.6 Use the CALCULATE instruction for a complex mathematical equation 3.7 Add an HMI device to the project 3.8 Create a network connection between the CPU and HMI device 3.9 Create an HMI connection to share tags 3.10 Create an HMI screen 3.11 Select a PLC tag for the HMI element 9 Web server for easy Internet connectivity 9.1 Easy to use the standard web pages 9.2 Constraints that can affect the use of the Web server 9.2.1 Constraints when JavaScript is disabled 9.2.2 Features restricted when cookies are not allowed 1 Introducing the powerful and flexible S7-1200 1.1 Introducing the S7-1200 PLC 1.2 Expansion capability of the CPU 1.3 S7-1200 modules 1.4 Basic HMI panels 1.5 Mounting dimensions and clearance requirements 1.6 New features for S7-1200 and STEP 7 V11 4 PLC concepts made easy 4.1 Tasks performed every scan cycle 4.2 Operating modes of the CPU 4.3 Execution of the user program 4.3.1 Processing the scan cycle in RUN mode 4.3.2 OBs help you structure your user program 4.3.3 Event execution priorities and queuing 4.5 Pulse outputs 3 Getting started 3.1 Create a project 3.2 Create tags for the I/O of the CPU 3.3 Create a simple network in your user program 3.4 Use the PLC tags in the tag table for addressing the instructions 3.5 Add a box instruction 3.6 Use the CALCULATE instruction for a complex mathematical equation 3.7 Add an HMI device to the project 3.8 Create a network connection between the CPU and HMI device 3.9 Create an HMI connection to share tags 3.10 Create an HMI screen 3.11 Select a PLC tag for the HMI element 9 Web server for easy Internet connectivity 10 Motion control is easy 11 Easy to use the online tools A Technical specifications Index
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Content	Programming made easy 6.6 High-speed counter (HSC) Easy Book 112 Manual, 07/2011, A5E02486774-03 6.6.1 Operation of the HSC The high-speed counter (HSC) counts events that occur faster than the OB execution rate. If the events to be counted occur within the execution rate of the OB, you can use CTU, CTD, or CTUD counter instructions. If the events occur faster than the OB execution rate, then use the HSC. The CTRL_HSC instruction allows your user program to programmatically change some of the HSC parameters. For example: You can use the HSC as an input for an incremental shaft encoder. The shaft encoder provides a specified number of counts per revolution and a reset pulse that occurs once per revolution. The clock(s) and the reset pulse from the shaft encoder provide the inputs to the HSC. The HSC is loaded by the user program with the first of several presets, and the outputs are activated by the user program for the time period where the current count is less than the current preset. The user program configures the HSC to provide an interrupt when the counter value is equal to the reference value (or CV = RV), when a reset occurs, and also when there is a direction change. As each CV = RV interrupt event occurs, the user program loads a new reference value and sets the next state for the outputs inside the CV = RV interrupt OB. When the reset interrupt event occurs, the user program loads the first reference value and sets the first output states in the reset-interrupt OB, and the cycle is repeated. Since the interrupts occur at a much lower rate than the counting rate of the HSC, precise control of high-speed operations can be implemented with relatively minor impact to the scan cycle of the CPU. The method of interrupt attachment allows each load of a new preset to be performed in a separate interrupt routine for easy state control. (Alternatively, all interrupt events can be processed in a single interrupt routine.) Table 6- 27 Maximum frequency (KHz) HSC Single phase Two phase and AB quadrature CPU 100 KHz80 KHz High-speed SB 200 KHz160 KHz HSC1 SB 30 KHz20 KHz CPU 100 KHz80 KHz High-speed SB 200 KHz160 KHz HSC2 SB 30 KHz20 KHz HSC3 CPU 100 KHz80 KHz HSC4 CPU 30 KHz20 KHz CPU 30 KHz20 KHz High-speed SB 200 KHz160 KHz HSC5 SB 30 KHz20 KHz CPU 30 KHz20 KHz High-speed SB 200 KHz160 KHz HSC6 SB 30 KHz20 KHz
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Following Datasheets	s71200_easy_book_zh-chs_zh-chs_july2011 (323 pages) s71200_getting_started (60 pages) s71200_getting_started_en-US_en-US (60 pages) s71200_system_manual_en-US_en-US (721 pages) s71200_system_manual_nov2011 (796 pages) s71200_system_manual_zh-chs_zh-chs_july2011 (820 pages) s7200_autocad_v16 (1 pages) s7200_quick_reference_card (2 pages) s7200_system_manual_en-US (554 pages) s7300_apr2007_chinese (24 pages)
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