MITEL NJ88C33MAMP, NJ88C33MADP Datasheet

Frequency Synthesiser (I2C BUS Programmable)

The NJ88C33 is a synthesiser circuit fabricated on Mitel
Semiconductor's 1.4 micron CMOS process, assuring very
high performance. It is I2C compatible and can also be
programmed at up to 5MHz. It contains a 16-bit R counter, a
12-bit N counter and a 7-bit A counter.

A digital phase comparator gives improved loop stability
with current source outputs to reduce loop components. A
voltage doubler is provided for the loop driver to improve
control voltage range to the VCO when operating at low supply
voltages.

FEATURES

■ Easy to Use

■ Low Power Consumption (15mW)

■ Single Supply 2.5V to 5.5V

■ Digital Phase Comparator with Current Source

Outputs

■ Serial (I2C Compatible) Programming, 5MHz max

■ Channel Loading in 8µs

■ 150MHz Input Frequency Without Prescaler at 4.5V

(52MHz at 2.7V)

■ Standby Modes

■ Use of Two-Modulus Prescaler is Possible

APPLICATIONS

■ Cordless Telephones (CT2, DECT)

■ Cellular Telephones (GSM, PCN, ETACS)

■ Hand Held Marine Radios

■ Sonarbuoys

■ Video Clock generators

NJ88C33

Advance Information

DS2429 - 3.2 September 1994

DP14

MP14

Fig.1 Pin connections (not to scale) - top views

ABSOLUTE MAXIMUM RATINGS

Supply voltage, V
Input voltage, V
Output voltage on pin 13, V
Storage temperature, T

DD

IM1

IM2

stg

ORDERING INFORMATION

NJ88C33 MA DP (Industrial - Plastic DIL package)
NJ88C33 MA MP (Industrial - Miniature Plastic DIL package)

-0.3V to 7V

-0.3 to VDD +0.3V

-VDD to 0V

-55°C to +125°C

Fig.2 Simplified block diagram of NJ88C33

NJ88C33

PIN DESIGNATIONS

Pin

No.

1
2

Pin

Name

V

DD

RI

Description

Supply voltage (normally 5V or 3V).
Reference frequency input from an accurate source, normally a crystal oscillator. The input is normally

an AC coupled sinewave but may be a DC coupled square wave.

10
11
12

13

3

S/D

Single/dual modulus operating mode selection input. Single modulus operation is selected by driving

the pin low. 'High' selects dual modulus mode.
4
5
6

SDA
SCL

PORT

I2C bus data input pin. It is also an open-drain output for generating I2C bus acknowledge pulses.

I2C bus clock input. It can be clocked at up to 5MHz.

Output control pin, which can be programmed via the I2C bus. It can be connected to the S/D pin to

select single or dual modulus mode under bus control.
7

MOD

Modulus control pin. It is high in single modulus mode but switches in dual modulus operation. In dual

modulus mode, MOD remains low during operation of the A counter until A=0; MOD then remains high

until N=0, when both counters are reloaded. It can be programmed via the I2C bus as an open-drain

or push-pull output.
8

FI

Frequency input from a VCO or prescaler. The input is normally an AC coupled sinewave but may be

a DC coupled square wave.
9

GND2

Dedicated ground for the FI input buffer. It should be connected to the VCO ground or the prescaler

ground, if used. Any noise on this pin will affect the performance of the VCO loop.

FVN

GND1

PD

Open-drain output from the N counter.

Ground supply pin (global).

Tristate current output from the phase detector. The polarity of the output can be programmed via the

I2C bus.

C

Voltage doubler output. The operation of the doubler can be controlled via the I2C bus. In applications

where the voltage doubler is switched off, this pin should be connected to GND1; a reservior capacitor

should be connected from this pin to GND1 for applications where it is switched on.

14

LD

Open-drain lock detect output - requires integration if used.

OPERATING RANGE

Test conditions (unless otherwise stated):

PLL locked, RI = 10MHz

Characteristic

Supply voltage
Ambient temperature

Supply current

Single modulus

Dual modulus

Standby mode

Standby mode

Symbol

V

DD

T

amb

I

DD

I

DD

I

DD

I

DD

Min.

2.5

-40

Value

Typ. Max.

5.5

5

+85

3.0

2.1

3.0

2

1.5

1.0

Unit

Conditions

V

°C

FI = 50MHz, VFI = 150mVrms, N,R > 1000 without

mA

voltage doubler, VDD = 5V, T
FI = 10MHz, VFI = 500mVrms, N,R > 1000 without

mA

voltage doubler, VDD = 5V, T

µA

1

FI = 50MHz, VFI = 150mVrms, preamp off, divider off,
VDD = 5V, T

mA

FI = 50MHz, VFI = 150mVrms, preamp on, divider off,
VDD = 5V, T

amb

amb

= 25°C

= 25°C

amb

amb

= 25°C

= 25°C

2

NJ88C33

3

NJ88C33

ELECTRICAL CHARACTERISTICS

These characteristics are guaranteed over the following conditions (unless otherwise stated):

VDD = 4.5V to 5.5V, T

INPUT SIGNALS

= -40°C to +85°C

amb

Characteristic

Symbol

Min.

Value

Unit

Conditions

Max.Typ.

Input Signals SDA,
SCL, S/D

Input voltage high
Input voltage low
Input capacitance
Input current

V
V
C
I

0.7V

IH
IL
I

IN

DD

0

V

0.3V
10
10

DD

V
V

DD

pF

VIN = VDD = 5.5V

µA

Input signal RI

Input frequency
Input voltage
Input capacitance
Input current

Input signal FI

Input frequency
Input voltage
Input capacitance
Input current

Input signal FI

Input frequency
Input voltage

Input capacitance
Input current

f

max

V

Irms

C

I

I

IN

f

max

V

Irms

C

I

I

IN

f

max

V

Irms

V

Irms

V

Irms

C

I

I

IN

100

50

30
100
200

52
10

10

52
10

10

150

10
10

MHz

MHz

MHz

Sinewave input
Note 1, 2

mV

pF

VIN = VDD = 5.5V

µA

Dual modulus operation
Sinewave input
Note 1, 2

mV

pF

VIN = VDD = 5.5V

µA

Single modulus operation
Sinewave input
FI = 0-70MHz Note 1, 2

mV

FI = 70-120MHz Note 1, 2

mV

FI = 120-150MHz Note 1, 2

mV

pF

VIN = VDD = 5.5V

µA

Note.1Lowest noise floor achieved at 10dB above this level with I2C bus operating. The source impedance should be less
than 2kΩ.
Note.2DC coupled input amplitude V

> 0.8VDD.

IRMS

OUTPUT SIGNALS

Characteristic

Symbol

Min.

Value

Unit

Conditions

Max.Typ.

Output Signals SDA, LD

Output voltage low

Output Signal PD

High current mode (see Fig.4)
Low current mode
Tristate

Output Signal FVN

Output voltage low
Output low pulse width

Output Signals MOD, PORT

Output voltage high
Output voltage low

Output Signal LD

Output voltage low
Output low pulse width

V

OL

I

HU

I

HD

I

LU

I

LD

I

Z

V

OL

t

WL

V

OH

V

OL

V

OL

t

WL

1.9

-1.9

0.475

-0.475

VDD-0.4

2.5

-2.5

0.625

-0.625
50

10

0.4

3.1

-3.1

0.775

-0.775

0.4

1/FI

0.4

0.4

1/FVN

1/f

C

mA
mA
mA
mA

Open drain, IOL = 3mA

V

CL = 400pF, tristate output
0 < VPD < 4.5, VDD = 5V, T = 25°C Note 1

0.4 < VPD < 5, VDD = 5V, T = 25°C Note 1
0 < VPD < 4.6, VDD = 5V, T = 25°C Note 1

0.4 < VPD < 5, VDD = 5V, T = 25°C Note 1
T

= -25°C to +60°C

nA

amb

Open drain output
IOL = 1mA

V

CL = 30pF
Push-pull output

IOH = 0.5mA

V

IOL = 0.5mA

V

Open drain output
IOL = 3mA, CL = 30pF

V

Loop locked

ns

Loop not locked
FVN = FI/N
fC = RI/R

Note.1Temperature coefficient for current is typically -0.7%/°C

4