Nokia 9000i Service Manual page 261

After Sales
Technical Documentation
1.2 PLLDIV24
If the Vsys and the current consumption is OK, check whether the PLL
circuitry and the clock generation inside the CPU (D130) is working
properly. The output of pin 110 of the CPU should be a square wave and
the frequency in A5 stepping of the CPU 307kHz, in the A3 stepping of the
CPU the frequency should be 614kHz. The shape and the frequency can
be checked with a scope, the frequency can be measured more
accurately with a frequency counter.
If the frequency is OK, then proceed to 1.3 otherwise check the PLL
circuitry 1.2.1
1.2.1 Check PLL Circuitry
The crystal and circuitry around it can be checked by connecting
oscilloscope XTALI signal. On that point a 32.6 – 32.8 kHz signal with 2.5
– 3.5V peak to peak AC amplitude should be found. The signal waveform
can vary from almost square wave to sine wave. If this signal can not be
detected and VCCRTC level is 2 – 3V then check crystal and circuitry
(R140, R141, R146, R147, C155, C156) around it. It is also possible that
the actual CPU chip is defective.
If the XTALI signal is OK but PLLDIV24 signal is not available, LPLLI
components (R136, C151, C152) and IREFL (R138) must be checked
V131, C147 and C149 are also crucial for PLL functionality. If all these
seem to be OK, the actual CPU chip is probably defective.
1.3 Bus Activity in Address/Data, Read/Write and Chip Selects?
If the PLL is functional, then the CPU system clock should be running and
should try to fetch code from the Flash that is controlled by the UCSX.
Analyzing the code fetching cycles is beyond the scope of this document,
and is not needed during normal troubleshooting. The main idea of this is
just to check the signal levels, and to see that there is something
happening, i.e. the CPU is not totally 'dead'.
If there is some bus activity in all data lines and the signal levels are
adequate, the data bus can be considered to be functional. If there is
some bus activity in the lower address lines and the signal levels are
adequate, the address bus can be considered to be functional. The CPU
should also try to read data from and to the memories also the UCSX line
should toggle within normal voltage limits. If there are illegal signal levels,
the faulty component can be isolated by disconnecting each component in
the signal line one by one.
The cycles vary according to the code in the D163 Flash and therefore
there is not necessarily no activity in MEMWX and the CS1/CS0 lines.
If there is no activity at all, then check PWRGOOD signal during powering
the device up. If there is reasonable activity in the signals and the signal
levels are OK, proceed to 1.4
Original, 05/97
RAE/RAK–1N
Faultfinding/Disassembly
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