sp5512 Mitel, sp5512 Datasheet - Page 4

sp5512

Manufacturer Part Number

sp5512

Description

1.3ghz Bidirectional I2c Bus Controlled Synthesiser

Manufacturer

Mitel

Datasheet

1.SP5512.pdf (10 pages)

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SP5512

FUNCTIONAL DESCRIPTION

Clock are fed in on the SDA and SCL lines respectively as

defined by the I

accept new data (write mode) or send data (read mode). The

Tables in Fig. 3 illustrate the format of the data. The device

can be programmed to respond to several addresses, which

enables the use of more than one synthesiser in an I

system. Table 4 shows how the address is selected by

applying a voltage to P3. The LSB of the address byte (R/W)

sets the device into read mode if it is high and write mode if

it is low. When the SP5512 receives a correct address byte

it pulls the SDA line low during the acknowledge period and

during following acknowledge periods after further data bytes

are programmed. When the SP5512 is programmed into the

read mode the controlling device accepting the data must pull

down the SDA line during the following acknowledge period to

read another status byte.

WRITE MODE (FREQUENCY SYNTHESIS)

synthesised frequency while Bytes 4 5 select the output port

states and charge pump information.

the first bit of the next byte determines whether that byte is

interpreted as Byte 2 or 4, a logic 0 for frequency information

and a logic 1 for charge pump and output port information.

Additional data bytes can be entered without the need to re-

address the device until an I

This allows a smooth frequency sweep for fine tuning or AFC

purposes.

another device on the bus) then the previously programmed

byte is maintained.

programmable divider which is preceded by a divide-by-8

prescaler and amplifier to give excellent sensitivity at the local

oscillator input; see Fig 5. The input impedance is shown in

Fig. 7.

ing the programmed division ratio by 8 times the comparison

frequency F

via the charge pump and varactor drive amplifier, adjusts the

The SP5512 is programmed from an I

When the device is in the write mode Bytes 2 3 select the

Once the correct address is received and acknowledged,

If the transmission of data is stopped mid-byte (e.g., by

Frequency data from Bytes 2 and 3 is stored in a 15-bit shift

The programmed frequency can be calculated by multiply-

When frequency data is entered, the phase comparator,

COMP

C Bus format. The synthesiser can either

C stop condition is recognised.

C BUS. Data and

C BUS

local oscillator control voltage until the output of the program-

mable divider is frequency and phase locked to the comparison

frequency.

source capacitively coupled into pin 2 or provided by an on-

chip 4MHz crystal controlled oscillator.

4MHz reference is used.

current in the charge pump circuit, a logic 1 for

a logic 0 for

tuning slope of the tuner and also to enable fast channel

changes over the full band. Bit 4 of Byte 4 (T0) disables the

charge pump if set to a logic 1. Bit 8 of Byte 4 (OS) switches

the charge pump drive amplifier’s output off when it is set to

a logic 1. Bit 3 of Byte 4 (T1) selects a test mode where the

phase comparator inputs are available on P6 and P7, a logic

1 connects F

impedance output, logic 1 for low impedance (on).

READ MODE

from the device on the SDA line takes the form shown in Table

logic 1 if the power supply to the device has dropped below a

nominal 3V and the programmed information lost (e.g., when

the device is initially turned on). The POR is set to 0 when the

read sequence is terminated by a stop command. The outputs

are all set to high impedance when the device is initially

powered up. Bit 2 (FL) indicates whether the device is phase

locked, a logic 1 is present if the device is locked and a logic

0 if the device is unlocked.

P7, P5 and P4 respectively. A logic 0 indicates a low level and

a logic 1 a high level. If the ports are to be used as inputs they

should be programmed to a high impedance state (logic1).

These inputs will then respond to data complying with stand-

ard TTL voltage levels. Bits 6, 7 and 8 (A2,A1,A0) combine to

give the output of the 5-level ADC.

the microprocessor from the IF section of the television, as

illustrated in Fig. 4.

The reference frequency may be generated by an external

Note that the comparison frequency is 7·8125kHz when a

Bit 2 of Byte 4 of the programming data (CP) controls the

Byte 5 programs the output ports P2-P7, a logic 0 for a high

When the device is in the read mode the status data read

Bit 1 (POR) is the power on reset indicator and is set to a

Bits 3, 4 and 5 (I2, I1, I0) show the status of the I/O Ports

The 5-level ADC can be used to feed AFC information to

COMP

50µA, allowing compensation for the variable

to P6 and F

DIV

to P7.

170µA and

sp5512 Mitel, sp5512 Datasheet - Page 4

sp5512

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