- Forums
- Product Forums
- General Purpose MicrocontrollersGeneral Purpose Microcontrollers
- i.MX Forumsi.MX Forums
- QorIQ Processing PlatformsQorIQ Processing Platforms
- Identification and SecurityIdentification and Security
- Power ManagementPower Management
- MCX Microcontrollers
- S32G
- S32K
- S32V
- MPC5xxx
- Other NXP Products
- Wireless Connectivity
- S12 / MagniV Microcontrollers
- Powertrain and Electrification Analog Drivers
- Sensors
- Vybrid Processors
- Digital Signal Controllers
- 8-bit Microcontrollers
- ColdFire/68K Microcontrollers and Processors
- PowerQUICC Processors
- OSBDM and TBDML
-
- Solution Forums
- Software Forums
- MCUXpresso Software and ToolsMCUXpresso Software and Tools
- CodeWarriorCodeWarrior
- MQX Software SolutionsMQX Software Solutions
- Model-Based Design Toolbox (MBDT)Model-Based Design Toolbox (MBDT)
- FreeMASTER
- eIQ Machine Learning Software
- Embedded Software and Tools Clinic
- S32 SDK
- S32 Design Studio
- GUI Guider
- Zephyr Project
- Voice Technology
- Application Software Packs
- Secure Provisioning SDK (SPSDK)
- Processor Expert Software
- MCUXpresso Training Hub
-
- Topics
- Mobile Robotics - Drones and RoversMobile Robotics - Drones and Rovers
- NXP Training ContentNXP Training Content
- University ProgramsUniversity Programs
- Rapid IoT
- NXP Designs
- SafeAssure-Community
- OSS Security & Maintenance
- Using Our Community
-
- Cloud Lab Forums
-
- Knowledge Bases
- ARM Microcontrollers
- i.MX Processors
- Identification and Security
- Model-Based Design Toolbox (MBDT)
- QorIQ Processing Platforms
- S32 Automotive Processing Platform
- Wireless Connectivity
- CodeWarrior
- MCUXpresso Suite of Software and Tools
- MQX Software Solutions
-
- Home
- :
- Product Forums
- :
- 8-bit Microcontrollers
- :
- Re: ICG With External Oscilattor
ICG With External Oscilattor
- Subscribe to RSS Feed
- Mark Topic as New
- Mark Topic as Read
- Float this Topic for Current User
- Bookmark
- Subscribe
- Mute
- Printer Friendly Page
- Mark as New
- Bookmark
- Subscribe
- Mute
- Subscribe to RSS Feed
- Permalink
- Report Inappropriate Content
Hi,
I'm using an 9S08AC128 with an external 4.000MHz canned oscillator, and require a bus clock of 16.000MHz. I've assumed I will need to switch to FEE mode, with N=16 and R=2.
To test my overall project I have a 32.000MHz oscillator attached, creating a 16.000MHz bus clock.
ICG_Init mov #%01010000,rICGC1
mov #%00000000,rICGC2
rts
The above code works fine. I have a timer generating a 1Hz signal that flashes a LED and it's quite accurate as you would expect. Now it's time to swap over to the 4.000MHz oscillator.
Page 201 of the Reference Manual provides an example that generates a bus clock of 20 MHz from a 4MHz crystal. The code example is:
ICG_Init mov #%01111000,rICGC1
mov #%00110000,rICGC2 ;N=10, R=1
rts
When I run this code I get a bus clock substantially below 20 MHz (visible by a very slow flashing LED). My plan was to then change ICGC2 to N=16 and R=2 to generate my 16.000MHz bus clock.
Curiously page 202 of the same Reference Manual gives a different value for ICGC1 than the previous page for the same example, and I suspect that's a typo.
Any suggestions about what I have overlooked?
David
Solved! Go to Solution.
- Mark as New
- Bookmark
- Subscribe
- Mute
- Subscribe to RSS Feed
- Permalink
- Report Inappropriate Content
Hello David,
Using a 4MHz external oscillator, the combination N = 10, R = 1 should correctly generate a 40 MHz DCO frequency, and a 20 MHz bus frequency. This is on the upper DCO frequency limit. It might pay to initially leave R at the default value of 2 whilst setting up FEE mode. After lock has occurred, you would then set R = 1 as a separate process. This will avoid the possibility of overclocking the MCU prior to lock occurring.
For a bus frequency of 16 MHz, the only combination that will work is N = 8, R = 1. If you attempt to set N = 16, this will exceed the maximum DCO frequency limit, and lock will not occur.
Since you are using an external oscillator, rather than a crystal, it is unnecessary to set bit-5 of ICGC1. This will free up the XTAL pin for GPIO use.
Regards,
Mac
- Mark as New
- Bookmark
- Subscribe
- Mute
- Subscribe to RSS Feed
- Permalink
- Report Inappropriate Content
Hello David,
Using a 4MHz external oscillator, the combination N = 10, R = 1 should correctly generate a 40 MHz DCO frequency, and a 20 MHz bus frequency. This is on the upper DCO frequency limit. It might pay to initially leave R at the default value of 2 whilst setting up FEE mode. After lock has occurred, you would then set R = 1 as a separate process. This will avoid the possibility of overclocking the MCU prior to lock occurring.
For a bus frequency of 16 MHz, the only combination that will work is N = 8, R = 1. If you attempt to set N = 16, this will exceed the maximum DCO frequency limit, and lock will not occur.
Since you are using an external oscillator, rather than a crystal, it is unnecessary to set bit-5 of ICGC1. This will free up the XTAL pin for GPIO use.
Regards,
Mac
- Mark as New
- Bookmark
- Subscribe
- Mute
- Subscribe to RSS Feed
- Permalink
- Report Inappropriate Content
Thanks for the reply Mac.
Therefore are you suggesting the following for a 4MHz external oscillator generating a bus clock of 16MHz:
ICG_Init mov #%01011000,rICGC1 ;RANGE=hi, CLKS=11(FLL engaged, external)
mov #%00100001,rICGC2 ;N=8, R=2
icg_wait_lock brclr 3,rICGS1,icg_wait_lock ;wait for the FLL to lock
mov #%00100000,rICGC2 ;N=8, R=1
rts
David
- Mark as New
- Bookmark
- Subscribe
- Mute
- Subscribe to RSS Feed
- Permalink
- Report Inappropriate Content
Hello David,
Yes, this is what I had suggested. Does it work?
Regards,
Mac
- Mark as New
- Bookmark
- Subscribe
- Mute
- Subscribe to RSS Feed
- Permalink
- Report Inappropriate Content
Hi Mac,
Yes, that worked perfectly. The wait for lock was essential.
Thanks for your help.
David
