tm1300 NXP Semiconductors, tm1300 Datasheet - Page 136
tm1300
Manufacturer Part Number
tm1300
Description
Tm-1300 Media Processor
Manufacturer
NXP Semiconductors
Datasheet
1.TM1300.pdf
(533 pages)
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TM1300 Data Book
• set AI_FREQ to ensure that a valid clock is gener-
• MMIO(AI_CTL)
• MMIO(AI_SERIAL) = 1 << 31; /* sets serial-master
• MMIO(AI_SERIAL) = (1 << 31) | (SCKDIV value); /*
The DSPCPU initiates capture by providing two equal
size empty buffers and putting their base address and
size in the BASE
cal memory) buffers are assigned, capture can be en-
abled by writing a ‘1’ to CAP_ENABLE. The AI unit hard-
ware now proceeds to fill buffer 1 with input samples.
Once buffer 1 fills up, BUF1_FULL is asserted, and cap-
ture continues without interruption in buffer 2. If
BUF1_INTEN is enabled, a SOURCE 11 interrupt re-
quest is generated.
Note that the buffers must be 64-byte aligned, and a mul-
tiple of 64 samples in size (the six LSBs of AI_BASE1,
AI_BASE2 and AI_SIZE are always ’0’).
The DSPCPU is required to assign a new, empty buffer
to BASE1 and perform an ACK1, before buffer 2 fills up.
Capture continues in buffer 2, until it fills up. At that time,
BUF2_FULL is asserted, and capture continues in the
new buffer 1, etc.
Upon receipt of an ACK, the AI hardware removes the re-
lated interrupt request line assertion at the next DSPCPU
clock edge. Refer to
(Maskable and Non-Maskable Interrupts),”
regarding ACK and interrupt re-enabling. The AI interrupt
should always be operated in level-sensitive mode, since
AI can signal multiple conditions that each need indepen-
dent ACKs over the single internal SOURCE 11 request
line.
In normal operation, the DSPCPU and AI hardware con-
tinuously exchange buffers without ever loosing a sam-
ple. If the DSPCPU fails to provide a new buffer in time,
the OVERRUN error flag is raised. This flag is not affect-
ed by ACK1 or ACK2; it can only be cleared by an explicit
ACK_OVR.
8.8
The AI unit enters power down state whenever TM1300
is put in global power down mode, except if the SLEEP-
LESS bit in AI_CTL is set. In the latter case, the unit con-
tinues DMA operation and will wake up the DSPCPU
whenever an interrupt is generated.
The AI unit can be separately powered down by setting
a bit in the BLOCK_POWER_DOWN register. Refer to
Chapter 21, “Power Management.”
It is recommended that AI be stopped (by negating
AI_CTL.CAP_ENABLE) before block level power down
is started, or that SLEEPLESS mode is used when global
power down is activated.
8-6
ated (Only when AI is the master of the audio clock
system)
mode, starts AI_SCK */
then set DIVIDER values */
POWER DOWN AND SLEEPLESS
n
and SIZE registers. Once two valid (lo-
= 1 << 31; /* Software Reset */
Section 3.5.3, “INT and NMI
PRODUCT SPECIFICATION
for the rules
8.9
The AI unit uses internal buffering before writing data to
SDRAM. The internal buffer consists of one stereo sam-
ple input holding register and 64 bytes of internal buffer
memory. Under normal operation, the 64-byte buffer is
written to SDRAM while the input register receives an-
other sample. This normal operation is guaranteed to be
maintained as long as the highway arbiter is set to guar-
antee a latency for the AI unit that matches the sampling
interval. Given a sample rate f
ple interval T (in nsec), the arbiter should be set to have
a latency of at most T-20 nsec. Refer to
biter,”
quested latency is not adequate, the HBE (Highway
Bandwidth Error) condition may result. This error flag
gets set when the input register is full, the 64-byte buffer
has not yet been written to memory, and a new sample
arrives.
Table 8-7
Table 8-7. AI highway arbiter latency requirement
examples
a number of common operating modes. The rightmost
column illustrates the nature of the resulting 64-byte
highway requests. Is not necessary to compute arbiter
settings, but they may be used to compute bus availabil-
ity in a given interval.
Table 8-8. AI MMIO status fields (read only)
stereo
16 bits/sample
stereo
16 bits/sample
stereo
16 bits/sample
BUF1_ACTIVE • If ‘1’, buffer 1 will be used for the next
BUF1_FULL
Field Name
CapMode
for information on arbiter programming. If the re-
HIGHWAY LATENCY AND HBE
shows the required arbiter latency settings for
(kHz)
• 1 after RESET.
• If ‘1’, buffer 1 is full. If BUF1_INTEN is also
• 0 after RESET.
44.1
48.0
96.0
incoming sample. If ‘0’, buffer 2 will receive
the next sample.
‘1’, an interrupt request (source 11) is
pending. BUF1_FULL is cleared by writing
a ‘1’ to ACK1, at which point the AI hard-
ware will assume that BASE1 and SIZE
describe a new empty buffer.
f
s
22,676
20,833
10,417
(nS)
T
Philips Semiconductors
s
Description
, and an associated sam-
latency
arbiter
22,656
20,813
10,397
(nsec)
max
Chapter 20, “Ar-
access pattern
1 request every
1 request every
1 request every
362,812 nsec
333,333 nsec
166,667 nsec
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