#include <nitro/spi.h>u32 PM_SetAmp( PMAmpSwitch sw );
u32 PM_SetAmpAsync( PMAmpSwitch sw, PMCallback callback, void* arg );
| sw | Amp switch. |
| callback | Callback that is called when the command finishes. |
| arg | Argument that is used when calling the callback. |
If PM_RESULT_SUCCESS, the command execution has succeeded (for synchronous functions), or the command was successfully sent to the ARM7 processor (for asynchronous functions).
If PM_RESULT_BUSY, the SPI was occupied by other processing and unable to process this function.
Toggles the switch of the programmable gain amp.
The sw argument is a PMAmpSwitch enumerator type and can contain either one of the following values.
| Value of sw | Amp Operation |
|---|---|
PM_AMP_ON |
Turns the amp ON. |
PM_AMP_OFF |
Turns the amp OFF. |
This function can be used from an interrupt handler. This function cannot be used in interrupt-prohibited states other than interrupt handlers.
Asynchronous Functions
This function uses PXI to send the command that performs the corresponding operation in the ARM7 processor. The ARM7 side that receives that command is executed by operating the PMIC. Therefore, this function may not operate instantly after you call it. A synchronous function that waits for the operation to finish, as well as an asynchronous function that only sends commands to the ARM7, are provided. Use either of the functions depending on your operational requirements. (The asynchronous function has "Async" appended to the function name.)
When an asynchronous function is called, the specified callback is called when processing on the ARM7 side finishes. The callback type PMCallback is defined by:
typedef void ( *PMCallback )( u32 result, void* arg );
This callback is called from inside the PXI interrupt handler.
The callback's first argument, result, indicates the result of the command. This is either PM_RESULT_SUCCESS or PM_RESULT_BUSY. The second argument in the callback returns the value arg.
About PM_RESULT_BUSY
The SPI is used for various other processes besides power management. If you call this function while another process is using it, this function sends a command to the ARM7. There, the SPI is determined to be BUSY, and PM_RESULT_BUSY is dispatched to the ARM9 without actually processing this function. Likewise, if you call this function while another PM process is running, that fact is determined on the ARM9, and this function returns PM_RESULT_BUSY. (In this case, the determination is made before notification is sent to the ARM7.)
Accordingly, if you want to ensure that this function succeeds, make it loop until it succeeds as shown below. (This example does not take into account mistakes such as wrong arguments.)
Example:
while( PM_SetAmp( ... ) != PM_RESULT_SUCCESS )
{
}
When using the Async version of this function, you could do this with code similar to the following.
Example
void setResult( u32 result, void* arg )
{
if ( arg )
{
*(u32*)arg = result;
}
}
while(1)
{
volatile u32 result = PM_RESULT_NONE; // Value that is not returned as a result
while ( PM_SetAmpAsync(..., setResult, (void*)&result ) != PM_RESULT_SUCCESS )
{
}
// Some other process
otherProcess();
// Wait for processing to finish
while( result == PM_RESULT_NONE )
{
}
// Exit from the loop on success
if ( result == PM_RESULT_SUCCESS )
{
break;
}
}
Operates the OP_CTL register of the PMIC.
2009/06/03 Removed a description of the PM_Init function (because OS_Init is now required).
2008/08/23 Discontinued use of PM_RESULT_ERROR and mentioned PM_RESULT_BUSY.
2005/07/07 Mentioned the PM_RESULT_ERROR return value.
2005/06/02 Explicitly stated where the callback is invoked.
2004/07/31 Initial version.
CONFIDENTIAL