PLL PLL650-03

PLL650-03
Low EMI Network LAN Clock
FEATURES
•
•
•
•
•
•
•
Full CMOS output swing with 40-mA output drive
capability. 25-mA output drive at TTL level.
Advanced, low power, sub-micron CMOS processes.
25MHz fundamental crystal or clock input.
4 outputs fixed at 50MHz with output disable, 1 output
selectable at 25MHz or 100MHz with output disable
SDRAM selectable frequencies of 66.6, 75, 83.3, 100MHz
(Double Drive Strength).
Spread spectrum technology selectable for EMI
reduction from ±0.5%, ±0.75% center for SDRAM and
CPU.
Zero PPM synthesis error in all clocks.
Ideal for Network switches.
3.3V operation.
Available in 16-Pin 150mil SOIC.
XIN
1
16
VDD
XOUT/50MHz_OE*^
2
15
VDD
GND
3
14
25MHz/100MHz
VDD
4
13
GND
50MHz/FS0*^
5
12
GND
GND
6
11
SDRAMx2
50MHz/FS1*^
7
10
VDD
50MHz/FS2* T
8
9
50MHz/SS0* T
PLL 650-03
•
•
•
PIN CONFIGURATION
Note: SDRAMx2: Double Drive strength. T: Tri-Level input ^: Internal pull-up
resistor *: Bi-directional pin (input value is latched upon power-up).
FREQUENCY TABLE
DESCRIPTION
The PLL 650-03 is a low cost, low jitter, and high
performance clock synthesizer. With PhaseLink’s
proprietary analog Phase Locked Loop techniques, the chip
accepts 25.0 MHz crystal, and produces multiple output
clocks for networking chips, PCI devices, SDRAM, and
ASICs.
FS0
FS1
SDRAM
FS2
Pin 14
0
0
100MHzSST
0
25MHz
1
83.3MHz SST
M
Disable
1
0
75MHzSST
1
100MHzSST
1
1
66.6MHzSST
0
SST: SST modulation applied
BLOCK DIAGRAM
4
XIN
XOUT
50MHz
(can be disabled)
XTAL
OSC
Control
Logic
1
SDRAM (66.6, 75, 83.3, 100MHz)
FS (0:3)
1
25MHz/100 MHz
(can be disabled)
47745 Fremont Blvd., Fremont, California 94538 Tel (510) 492-0990 Fax (510) 492-0991 www.phaselink.com Rev 09/03/04 Page 1
PLL650-03
Low EMI Network LAN Clock
PIN DESCRIPTIONS
Name
Number
Type
Description
XIN
1
I
25MHz fundamental crystal input (20pF C L parallel resonant). C L have been
integrated into the chip. No external C L capacitor is required.
XOUT/50MHz_OE
2
B
Crystal connection pin. At power-up, this pin latches 50MHz_OE (output
enable selector for all 50MHz outputs. Disabled when 50MHz_OE is logical
zero. Has 120kΩ internal pull up resistor.
50MHz/FS(0:2)
5,7,8
B
50MHz outputs. These pins latch FS(0:2) value at power-up. Pins 5 and 7
have 60kΩ internal pull up resistors.
50MHz/SS0
9
B
50MHz output. This pin latches SS0 value at power-up (tri-level pin). SS0
value is used to control the spread spectrum function.
SDRAMx2
11
O
SDRAM outputs with double drive strength determined by FS(0:1) value.
25MHz/100MHz
14
O
25MHz (reference) or 100MHz output. Can be disabled with FS2 = M.
VDD
4,10,15,16
P
3.3V power supply.
GND
3,6,12,13
P
Ground.
SPREAD SPECTRUM SELECTION TABLE
SS0
SST
0
±0.75% Center
M
OFF
1
±0.5% Center
FUNCTIONAL DESCRIPTION
Selectable spread spectrum and output frequencies
The PLL650-03 provides selectable spread spectrum modulation and selectable output frequencies. Selection is made by
connecting specific pins to a logical “zero” or “one”, or by leaving them not connected (tri-level inputs or internal pull-up)
according to the frequency and spread spectrum selection tables shown on pages 1 and 2 respectively.
In order to reduce pin usage, the PLL650-03 uses tri-level input pins. These pins allow 3 levels for input selection: namely, 0
(Connect to GND), 1 (Connect to VDD), M (Do not connect). Thus, unlike the two-level selection pins, the tri-level input pins are
in the “M” (mid) state when not connected. In order to connect a tri-level pin to a logical “zero”, the pin must be connected to
GND. Likewise, in order to connect to a logical “one” the pin must be connected to VDD.
Pin 2 (XOUT/50MHz_OE) is a bi-directional pin used to disable the 50MHz outputs. Pin 5 (FS0) and pin 7 (FS1) are bidirectional pins used to select the SDRAM output frequency upon power-up. Pin 8 (FS2) and pin 9 (SS0) are bi-directional pins
used to select the output frequency of pin 14, as shown in the frequency table on page 1, and to control the Spread Spectrum
modulation for EMI reduction. After the input signals have been latched, pins 5, 7, 8, 9, and 11 serve as 50 MHz frequency
outputs.
47745 Fremont Blvd., Fremont, California 94538 Tel (510) 492-0990 Fax (510) 492-0991 www.phaselink.com Rev 09/03/04 Page 2
PLL650-03
Low EMI Network LAN Clock
Connecting a bi-directional pin
A bi-directional pin serves as input upon power-up, and as output as soon as the inputs have been latched. The value of the
input is latched-in upon power-up. Depending on the pin (see pin description), the input can be tri-level or a standard two-level.
Unlike unidirectional pins, bi-directional pins cannot be connected directly to GND or VDD in order to set the input to "0" or "1",
since the pin also needs to serve as output. In the case of two level input pins, an internal pull-up resistor is present. This allows
a default value to be set when no external pull down resistor is connected between the pin and GND (by definition, a tri-level
input has a the default value of "M" (mid) if it is not connected). In order to connect a bi-directional pin to a non-default value, the
input must be connected to GND or VDD through an external pull-down/pull-up resistor. Note: when the output load presents a
low impedance in comparison to the internal pull-up resistor, the internal pull-up resistor may not be sufficient to pull the input up
to a logical “one”, and an external pull-up resistor may be required.
For bi-directional inputs, the external loading resistor between the pin and GND has to be sufficiently small (compared to the
internal pull-up resistor) so that the pin voltage be pulled below 0.8V (logical “zero”). In order to avoid loading effects when the
pin serves as output, the value of the external pull-down resistor should however be kept as large as possible. In general, it is
recommended to use an external resistor of around one sixth to one quarter of the internal pull-up resistor (see Application
Diagram). Note: when the output is used to drive a load presenting an small resistance between the output pin and VDD, this
resistance is in essence connected in parallel to the internal pull-up resistor. In such a case, the external pull-down resistor may
have to be dimensioned smaller to guarantee that the pin voltage will be low enough achieve the desired logical “zero”. This is
particularly true when driving 74FXX TTL components.
APPLICATION DIAGRAM
Internal to chip
External Circuitry
VDD
Rup
Power Up
Reset
Output
Latched
Input
Latch
R
RB
EN
Bi-directional pin
Clock Load
RUP/4
Jumper options
NOTE: Rup=120kΩ for 50MHz_OE (Pin2); Rup=60k Ω for FS(0:1). R starts from 1 to 0 while RB starts from 0 to 1.
47745 Fremont Blvd., Fremont, California 94538 Tel (510) 492-0990 Fax (510) 492-0991 www.phaselink.com Rev 09/03/04 Page 3
PLL650-03
Low EMI Network LAN Clock
Electrical Specifications
1. Absolute Maximum Ratings
PARAMETERS
SYMBOL
MIN.
V DD
VI
VO
TS
TA
TJ
-0.5
-0.5
-65
-40
Supply Voltage
Input Voltage, dc
Output Voltage, dc
Storage Temperature
Ambient Operating Temperature*
Junction Temperature
Lead Temperature (soldering, 10s)
ESD Protection, Human Body Model
MAX.
UNITS
4.6
V DD +0.5
V DD +0.5
150
85
125
260
2
V
V
V
°C
°C
°C
°C
kV
Exposure of the device under conditions beyond the limits specified by Maximum Ratings for extended periods may cause permanent damage to the device
and affect product reliability. These conditions represent a stress rating only, and functional operations of the device at these or any other conditions above
the operational limits noted in this specification is not implied.
* Note: Operating Temperature is guaranteed by design for all parts (COMMERCIAL and INDUSTRIAL), but tested for COMMERCIAL grade only.
2. AC Specifications
PARAMETERS
CONDITIONS
Input Frequency
MIN.
TYP.
MAX.
UNITS
10
25
27
MHz
Output Rise Time
0.8V to 2.0V with no load
1.5
ns
Output Fall Time
2.0V to 0.8V with no load
1.5
ns
Duty Cycle*
At V DD /2
55
%
Max. Absolute Jitter
Short term
Max. Jitter, cycle to cycle
45
50
±150
ps
80
ps
* : in case SDRAM output is selected to be 83.3MHz, the duty cycle of output pin 22 will be 40%-60% if its output frequency is selected to be 100MHz
(FS2=1). In all other situations, pin 22 will also have a 50%-50% typical duty cycle.
47745 Fremont Blvd., Fremont, California 94538 Tel (510) 492-0990 Fax (510) 492-0991 www.phaselink.com Rev 09/03/04 Page 4
PLL650-03
Low EMI Network LAN Clock
3. DC Specifications
PARAMETERS
SYMBOL
CONDITIONS
MIN.
TYP.
Operating Voltage
V DD
2.97
Input High Voltage
V IH
V DD /2
Input Low Voltage
V IL
V DD /2
Input High Voltage
V IH
For all Tri-level input
Input Low Voltage
V IL
For all Tri-level input
Input High Voltage
V IH
For all normal input
Input Low Voltage
V IL
For all normal input
Output High Voltage
V OH
I OH = -25mA
Output Low Voltage
V OL
I OL = 25mA
Output High Voltage At
CMOS Level
V OH
I OH = -8mA
Operating Supply Current
I DD
No Load
Short-circuit Current
IS
Nominal output current*
I out
CMOS output level
Nominal output current*
I out
TTL output level
Internal pull-up resistor
R up
Internal pull-up resistor
R up
MAX.
UNITS
3.63
V
V
V DD /2 - 1
V DD -0.5
V
V
0.5
2
V
V
0.8
2.4
V
V
0.4
V DD -0.4
V
V
35
mA
±50
mA
35
40
mA
20
25
mA
Pins 5,7
60
kΩ
Pin 2
120
kΩ
*: SDRAM output strengths are doubled (i.e. min. CMOS level is 70mA, typ. CMOS level is 80mA)
47745 Fremont Blvd., Fremont, California 94538 Tel (510) 492-0990 Fax (510) 492-0991 www.phaselink.com Rev 09/03/04 Page 5
PLL650-03
Low EMI Network LAN Clock
PACKAGE INFORMATION
16 PIN Narrow SOIC ( mm )
SOIC
E
Symbol
Min.
Max.
A
1.35
1.75
A1
0.10
0.25
B
0.33
0.51
C
0.19
0.25
D
9.80
10.00
E
3.80
4.00
H
5.80
6.20
L
0.40
e
H
D
1.27
A
A1
1.27 BSC
C
e
L
B
ORDERING INFORMATION
For part ordering, please contact our Sales Department:
47745 Fremont Blvd., Fremont, CA 94538, USA
Tel: (510) 492-0990 Fax: (510) 492-0991
PART NUMBER
The order number for this device is a combination of the following:
Device number, Package type and Operating temperature range
PLL650-03 S C
PART NUMBER
TEMPERATURE
C=COMMERCIAL
I=INDUSTRAL
PACKAGE TYPE
S=SOIC
Order Number
Marking
Package Option
PLL650-03SC-R
PLL650-03SC
P650-03SC
P650-03SC
SOIC - Tape and Reel
SOIC - Tube
PhaseLink Corporation, reserves the right to make changes in its products or specifications, or both at any time without notice. The information
furnished by Phaselink is believed to be accurate and reliable. However, PhaseLink makes no guarantee or warranty concerning the accuracy of said
information and shall not be responsible for any loss or damage of whatever nature resulting from the use of, or reliance upon this product.
LIFE SUPPORT POLICY: PhaseLink’s products are not authorized for use as critical components in life support devices or systems without the
express written approval of the President of PhaseLink Corporation.
47745 Fremont Blvd., Fremont, California 94538 Tel (510) 492-0990 Fax (510) 492-0991 www.phaselink.com Rev 09/03/04 Page 6