Prescaler; Microprocessor & Memories - Fluke PM6690 Service Manual

Timer/counter/analyzer

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Operator's manual (120 pages)

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Table of Contents

locked, and the VCO will go to one of the extremes. The typi-

cal range of the VCO is 95 to 105 MHz, thus giving an error of

typically 5 % in the measuring results.

Check the loop voltage (DC) at R272. It should be 1.6 - 2.2 V.

Check the 100 MHz signal at U48:4. It should be locked to the

incoming 10 MHz at U9:8. Check the lock condition with a

2-channel oscilloscope. Trigger on the 10 MHz channel. Then

the signal on the other channel shall be fixed, i.e. not moving

along the time axis. Check the PLL LOCK signal at U9:14

(lock is high).

Prescaler

The optional prescalers are not to be repaired. The faulty unit

should be sent to the factory, and an exchange unit will be

returned.

The best way to isolate the fault is to use another, functioning,

timer/counter with the same prescaler. Interchange the

prescalers and see if the problem follows the prescaler or the

timer/counter.

First measure with Channels A and B and check that the result

is OK. Select the function Frequency C. Connect a signal ac-

cording to Table 6-2 to Input C. Check the following pins on

the prescaler connector J15 on the main circuit board.

Pin 1 +5 V supply

Pin 5 +12 V supply

Pin 7 ON/OFF, ON is 0 V

Pin 11 test signal, should be 0 V

Pin 12 code 0, see Table 6-2

Pin 14 code 1, see Table 6-2

Pin 16 code 2, see Table 6-2

Pin 4 prescaler output signal, PECL levels (+4.1 V and

+3.4 V)

Frequency (GHz)

Level (dBm)

Division Factor

Code 0

Code 1

Code 2

Table 6-4

Prescaler characteristics.

Measure with oscilloscope and probe at pin 4. The output fre-

quency should be the input frequency divided by the factor in

the table. Check with a frequency counter.

Note: The 2.7 GHz option has a sensitivity trimmer. See

page 7-14 for information on how to adjust it.

PRESCALER 2.7 GHz

Microprocessor & Memories

Startup Process

The processor in this instrument is a Sharp LH79524 with a

32-bit ARM720T core. It is housed in an IC (U13) together

with peripheral units like SRAM, timers, I

SPI bus interface and LCD controller.

The 32-bit microprocessor bus is connected to one 16-bit

Flash PROM (U17) and two 16-bit SDRAMs (U15 & U16).

The two SDRAMs are organized as one 32-bit wide memory.

The microprocessor bus is also, via bidirectional buffers, con-

nected to an FPGA, a USB IC and a GPIB IC.

A reset IC (U116) monitors +3.3 VD and +1.8 V. The reset

signal is active low and is kept low for approximately 160 to

180 ms after the voltages have settled and been approved.

Measure at X33. The ramp-up time for +3.3 VD is approxi-

mately 3 ms.

The processor has an internal linear regulator that generates

the core voltage (+1.8 V) from the +3.3 VD I/O voltage.

Check +1.8 V at X66.

The rising edge of the reset signal marks the start of the boot

sequence. All I/Os on the processor are set to inputs. The

11.2896 MHz oscillator will start running (check at R358).

An internal PLL generates 1.88 MHz (reset value) as micro-

processor clock (check at X29). The processor will start read-

ing in the Flash PROM. The initializing of the processor and

the peripherals will start.

The I/Os will be set up, the processor clock will be set to

50.8 MHz (check at X29). The SDRAMs will start, and the

code is copied from the Flash PROM to the SDRAMs. From

now on the code is executed from the SDRAMs. Then all the

other subsystems are initialized: I

bus, fan etc. The FPGA is also programmed by the processor.

The progress of the initialization can be followed at two test

points, X55 and X31.

Test Point

Reset

I/O

Setup

X55

float. inp.

X31

float. inp.

See Figures 6-74 to 6-76 for a survey of a typical instrument

startup.

The LCD is switched on. The LCD controller in the processor

generates the control signals for the LCD. See Figures 6-77 to

6-81and 6-83. Note the different timing for the signals. The

C bus is used for switching the LCD on. The ON signal can

be checked at R34 on the display board. It should be high. The

LCD voltages must also be switched on. It is done by a control

signal from the processor. Check the signal at R33 on the dis-

play board. It should be high. Negative pulses on this signal

are used for adjusting the contrast of the LCD, i.e. the LCD

C bus interface,

C bus, LCD controller, SPI

SDRAM

C Init

Init Ready

Execute

Troubleshooting 6-43

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Prescaler; Microprocessor & Memories - Fluke PM6690 Service Manual

Prescaler

Troubleshooting

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