ICS MK1574

MK1574
Frame Rate Communications PLL
I C R O C LOC K
Description
Features
The MK1574-01 is a Phase-Locked Loop (PLL)
based clock synthesizer, which accepts an 8 kHz
clock input as a reference, and generates many
popular communications frequencies. All outputs
are frequency locked together and to the input.
This allows for the generation of locked clocks to
the 8 kHz backplane clock, simplifying clock
generation and distribution in communications
systems.
• Packaged in 16 pin narrow (150 mil) SOIC
• Exact multiplications stored in the device eliminate
the need for external dividers
• Accepts 8 kHz input clock
• Output clock rates include T1, E1, T2, E2
• 3.0V to 5.5V operation
• Available in commercial (0 to +70 C) or industrial
(-40 to +85 C) temperature ranges
• For jitter attenuation, use the MK2049
MicroClock can customize this device for any
other different frequencies.
Block Diagram
VDD
GND
2
2
4
PLL
Clock
Synthesis
and
Control
Circuitry
FS0-3
8kHz
Input Clock
Input
Buffer
Output
Buffer
CLK1
Output
Buffer
CLK2
Output
Buffer
CLK3
Output
Buffer
CAP1
8kHz
(recovered)
CAP2
1
Revision 011999
Printed 11/15/00
MicroClock Division of ICS • 525 Race Street • San Jose • CA • 95126•(408)295-9800tel•(408)295-9818fax
MDS 1574-01 D
I C R O C LOC K
Pin Assignment
MK1574
Frame Rate Communications PLL
Output Clocks Decoding Table MK1574-01 (MHz)
ICLK
1
16
FS3
VDD
2
15
N/C
VDD
3
14
FS2
CAP1
4
13
FS1
GND
5
12
CLK3
CAP2
6
11
CLK2
GND
7
10
CLK1
FS0
8
9
8KOUT
16 pin (150 mil) SOIC
Decode Address
FS3:0 (Hex)
0
0000
1
0001
2
0010
3
0011
4
0100
5
0101
6
0110
7
0111
8
1000
9
1001
A
1010
B
1011
C
1100
D
1101
E
1110
F
1111
ICLK
pin 1
Reserved
Reserved
Reserved
Reserved
8.00kHz
8.00kHz
8.00kHz
8.00kHz
8.00kHz
8.00kHz
8.00kHz
8.00kHz
8.00kHz
8.00kHz
8.00kHz
8.00kHz
Multiplier
On-chip
Reserved
Reserved
Reserved
Reserved
2940
1960
2760
2640
1920
6480
2112
1578
8192
6176
1024
772
CLK 1
pin 10
Reserved
Reserved
Reserved
Reserved
23.52
15.68
22.08
21.12
15.36
51.84
16.896
12.624
65.536
49.408
8.192
6.176
CLK 2
pin 11
Reserved
Reserved
Reserved
Reserved
11.76
7.84
11.04
10.56
7.68
25.92
8.448
6.312
32.768
24.704
4.096
3.088
CLK 3
pin 12
Reserved
Reserved
Reserved
Reserved
5.88
3.92
5.52
5.28
3.84
12.96
4.224
3.156
16.384
12.352
2.048
1.544
• 0 = connect directly to ground, 1 = connect directly to VDD.
Pin Descriptions
Number
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
Name
ICLK
VDD
VDD
CAP1
GND
CAP2
GND
FS0
8KOUT
CLK1
CLK2
CLK3
FS1
FS2
N/C
FS3
Type
I
P
P
I
P
I
P
I
O
O
O
O
I
I
I
Description
Input clock. Connect to an 8kHz clock input.
Connect to +3.3V or +5V.
Connect to +3.3V or +5V. Must be same voltage as pin 2.
Connect a ceramic capacitor and a resistor in series between this pin and CAP2. Refer to page 4.
Connect to ground.
Connect a ceramic capacitor and a resistor in series between this pin and CAP1. Refer to page 4.
Connect to ground.
Frequency Select 0. Determines CLK outputs per table above.
Recovered 8kHz output clock. Can be lower jitter, better duty cycle than input clock.
Clock 1 determined by status of FS3:0 per table above.
Clock 2 determined by status of FS3:0 per table above.
Clock 3 determined by status of FS3:0 per table above.
Frequency Select 1. Determines CLK outputs per table above.
Frequency Select 2. Determines CLK outputs per table above.
No Connect. Nothing is connected to this pin.
Frequency Select 3. Determines CLK outputs per table above.
Type: I = Input, O = output, P = power supply connection
2
Revision 011999
Printed 11/15/00
MicroClock Division of ICS • 525 Race Street • San Jose • CA • 95126•(408)295-9800tel•(408)295-9818fax
MDS 1574-01 D
I C R O C LOC K
MK1574
Frame Rate Communications PLL
External Components/Crystal Selection
The MK1574 requires a minimum number of external components for proper operation. An RC network
(see Capacitor Selection on following page) should be connected between CAP1 and CAP2 as close to the
chip as possible. A high quality ceramic capacitor is recommended. A decoupling capacitor of 0.1µF must
be connected between VDD and GND pins (pins 2 and 3, 5 and 7) close to the chip, and 33Ω terminating
resistors can be used on clock outputs with traces longer than 1 inch.
Electrical Specifications
Parameter
Conditions
Minimum
Typical
Maximum
Units
7
VDD+0.5
70
250
150
V
V
°C
°C
°C
5.5
V
V
V
V
V
V
mA
mA
pF
ABSOLUTE MAXIMUM RATINGS (Note 1)
Supply Voltage, VDD
Inputs and Clock Outputs
Ambient Operating Temperature
Soldering Temperature
Storage Temperature
Referenced to GND
-0.5
0
Max of 10 seconds
-65
DC CHARACTERISTICS (VDD = 5V unless noted)
Operating Voltage, VDD
Input High Voltage, VIH
Input Low Voltage, VIL
Output High Voltage
Output High Voltage
Output Low Voltage
Operating Supply Current, IDD
Short Circuit Current
Input Capacitance
3
2
0.8
IOH=-4mA
IOH=-25mA
IOL=25mA
No Load, VDD=5.0V
Each output
VDD-0.4
2.4
0.4
15
±100
7
AC CHARACTERISTICS (VDD = 5V unless noted)
Input Frequency
Output Clock Rise Time
Output Clock Fall Time
Output Clock Duty Cycle, High Time
Absolute Clock Period Jitter
Actual mean frequency error versus target, note 2
8.0000
0.8 to 2.0V
2.0 to 0.8V
At VDD/2
Any clock selection
40
49 to 51
1
0
1.5
1.5
60
0
kHz
ns
ns
%
ns
ppm
Notes:
1. Stresses beyond those listed under Absolute Maximum Ratings could cause permanent damage to the device. Prolonged exposure
to levels above the operating limits but below the Absolute Maximums may affect device reliability.
2. All multipliers as shown in the table on page two are exact, and are stored in ROM on the chip.
3
Revision 011999
Printed 11/15/00
MicroClock Division of ICS • 525 Race Street • San Jose • CA • 95126•(408)295-9800tel•(408)295-9818fax
MDS 1574-01 D
I C R O C LOC K
MK1574
Frame Rate Communications PLL
Loop Bandwidth and Loop Filter Component Selection
The series-connected capacitor and resistor between CAP1 and CAP2 (pins 4 and 6) determine the dynamic
characteristics of the phase-locked loop. The capacitor must have very low leakage, therefore a high quality
ceramic capacitor is recommended. DO NOT use any type of polarized or electrolytic capacitor. The series
connected capacitor and resistor between CAP1 and CAP2 (pins 4 and 6) determine the dynamic
characteristics of the phase-locked loop. The capacitor must have very low leakage, therefore a high quality
ceramic capacitor is recommended. DO NOT use any type of polarized or electrolytic capacitor. Ceramic
capacitors should have C0G or NP0 dielectric. Avoid high-K dielectrics like Z5U and X7R; these and other
ceramics which have piezoelectric properties allow mechanical vibration in the system to increase the output
jitter because the mechanical energy is converted directly to voltage noise on the VCO input.
The values of the RC network determine the bandwidth of the PLL. The values of the loop filter components
are calculated using the constants K1 and K2 from the table on page 5. The loop bandwidth is set by the
capacitor C and the constant K1 using the formula
K1
BW (Hz) =
Equation 1
C
The loop damping is set by the resistor R, the capacitor C, and the constant K2 using the formula
ζ • K2
R =
Equation 2; ζ (zeta) is the damping factor
C
For example, to design the loop filter when generating 8.192 MHz from 8 kHz:
1. From the table on page 2, the address is E. The table on page 5 shows constants K1=0.0516 and K2=6.2.
2. A good value for the loop bandwidth is 1/20 the input frequency; where 8 kHz/20 = 400 Hz. Using
Equation 1,
400 =
Therefore,
C=
(
0.0516
C
0.0516
400
)
2
= 16.6 nF (16 nF nearest standard value)
3. A good value for the damping factor ζ is 0.707. From Equation 2,
R =
0.707 • 6.2
16E-9
= 34.7 kΩ (36 kΩ nearest standard value)
4
Revision 011999
Printed 11/15/00
MicroClock Division of ICS • 525 Race Street • San Jose • CA • 95126•(408)295-9800tel•(408)295-9818fax
MDS 1574-01 D
I C R O C LOC K
MK1574
Frame Rate Communications PLL
Loop Filter Constants
This table shows the constants K1 and K2 that are used with the equations on page 4 to calculate the
external loop filter components.
Loop Filter Constants for MK1574-01
Decode Address
FS3:0 (Hex)
0
0000
1
0001
2
0010
3
0011
4
0100
5
0101
6
0110
7
0111
8
1000
9
1001
A
1010
B
1011
C
1100
D
1101
E
1110
F
1111
Loop Filter Constants
K1
K2
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
Reserved
0.0430
7.4
0.0527
6.0
0.0444
7.2
0.0454
7.0
0.0533
6.0
0.0410
7.8
0.0508
6.3
0.0587
5.4
0.0365
8.7
0.0420
7.6
0.0516
6.2
0.0594
5.4
PC Board Layout
A proper board layout is critical to the successful
use of the MK1574. In particular, the CAP1 and
CAP2 pins are very sensitive to noise and leakage
(CAP1 at pin 4 is the most sensitive). Traces
must be as short as possible and the capacitor
and resistor must be mounted next to the device
as shown to the right. The capacitor connected
between pins 3 and 5 is the power supply
decoupling capacitor.
V
cap
cap
G
resist.
1
2
3
4
5
6
7
8
16
15
14
13
12
11
10
9
V =connect to VDD
G =connect to GND
The high frequency output clocks on may
benefit from a series 33Ω resistor connected
close to the pin (not shown).
Clock Multipliers/Accuracies
In the table on page 2 are the actual multipliers stored in the MK1574 ROM, which yield the exact values
shown for the output clocks.
5
Revision 011999
Printed 11/15/00
MicroClock Division of ICS • 525 Race Street • San Jose • CA • 95126•(408)295-9800tel•(408)295-9818fax
MDS 1574-01 D
I C R O C LOC K
MK1574
Frame Rate Communications PLL
Package Outline and Package Dimensions
E
Symbol
A
b
c
D
E
H
e
h
Q
H
h x 45°
D
Inches
Min
Max
0.055 0.070
0.013 0.019
0.007 0.010
0.385 0.400
0.150 0.160
0.225 0.245
.050 BSC
0.016
0.004
0.01
Millimeters
Min
Max
1.397
1.778
0.330
0.483
0.191
0.254
9.779 10.160
3.810
4.064
5.715
6.223
1.27 BSC
0.406
0.102
0.254
A
c
Q
e
16 pin SOIC narrow
b
Ordering Information
Part/Order Number
Marking
Package
Temperature
MK1574-01S
MK1574-01STR
MK1574-01SI
MK1574-01SITR
MK1574-01S
MK1574-01S
MK1574-01S
MK1574-01S
16 pin narrow SOIC
Add Tape & Reel
16 pin narrow SOIC
Add Tape & Reel
0 to 70°C
0 to 70°C
-40 to +85°C
-40 to +85°C
While the information presented herein has been checked for both accuracy and reliability, Integrated Circuit Systems, Incorporated (ICS) assumes no responsibility for either its
use or for the infringement of any patents or other rights of third parties, which would result from its use. No other circuits, patents, or licenses are implied. This product is
intended for use in normal commercial applications. Any other applications such as those requiring extended temperature range, high reliability, or other extraordinary
environmental requirements are not recommended without additional processing by ICS. ICS reserves the right to change any circuitry or specifications without notice. ICS does
not authorize or warrant any ICS product for use in life support devices or critical medical instruments.
CHANGE HISTORY
Version Date first published
A
1/24/97
B
2/3/98
C
2/23/98
D
1/19/99
Comments
Original
Added I grade, revised filter equations, updated address.
Added Absolute Jitter value.
Added additional capacitor requirements.
6
Revision 011999
Printed 11/15/00
MicroClock Division of ICS • 525 Race Street • San Jose • CA • 95126•(408)295-9800tel•(408)295-9818fax
MDS 1574-01 D