ICS ICS307

ICS307
Serially Programmable Clock Source
Description
Features
The ICS307-01 and ICS307-02 are versatile
serially programmable clock sources which take
up very little board space.
• Packaged as 16 pin narrow SOIC
• Highly accurate frequency generation
• Serially programmable: user determines
the output frequency via a 3 wire interface.
• Eliminates need for custom quartz
• Input crystal frequency of 5 - 27 MHz
• Output clock frequencies up to 200 MHz
• Power Down Tri-State mode
• Very low jitter
• Operating voltages of 3.0 to 5.5 V
• 25 mA drive capability at TTL levels
• Industrial temperature available
They can generate any frequency from 6 to
200 MHz, and have a second configurable
output. The outputs can be reprogrammed on
the fly, and will lock to a new frequency in 10 ms
or less. Smooth transitions (in which the clock
duty cycle remains roughly 50%) are guaranteed
if the output divider is not changed.
The devices include a PDTS pin which tri-states
the output clocks and powers down the entire
chip.
The ICS307-02 features a default clock output
at start-up and is recommended for all new
designs.
Block Diagram
SCLK
DATA
VDD GND
TTL
2
Shift
Register
3
STROBE
2
R6:R0
Crystal or
clock input
7
Reference
Divider
C1:C0
9
V8:V0
Output
Buffer
S2:S0
F1:F0
VCO
Divider
Phase Comparator,
Charge Pump,
and Loop Filter
CLK1
S2:S0
3
VCO
Output
Divider
PDTS
X1/ICLK
Crystal
Oscillator
Function
Select
X2
C1:C0
2
F1:F0
Output
Buffer
CLK2
TTL
MDS 307 D
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ICS307
Serially Programmable Clock Source
Pin Assignment
ICS307
X1/ICLK
NC
VDD
1
2
3
16
15
X2
NC
14
NC
GND
4
13
12
NC
PDTS
DATA
CLK2
NC
SCLK
5
6
7
8
11
10
9
CLK1
NC
STROBE
16 pin Narrow
(0.150”) SOIC
Pin Description
Number
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
Name
X1/ICLK
NC
VDD
NC
GND
CLK2
NC
SCLK
STROBE
NC
CLK1
DATA
PDTS
NC
NC
X2
Type
XI
P
P
O
I
I
O
I
I
XO
Description
Crystal connection (REF frequency). Connect to a parallel resonant crystal, or an input clock .
No Connect.
Connect to +3.3V or +5V.
No Connect.
Connect to ground.
Output clock 2, determined by F0-F1. Can be reference, ref/2, CLK1/2 or off.
No Connect.
Serial clock. See timing diagram.
Strobe to load data. See timing diagram.
No Connect.
Output clock 1, determined by R0-R6, V0-V8, S0-S2 and input frequency.
Data Input. Serial input for three words which set the output clock(s).
Powers down entire chip, tri-states CLK1 and CLK2 outputs, when low. Internal pull-up.
No Connect.
No Connect.
Input crystal connection. Connect to a crystal, or leave unconnected for clock input.
Type: XI, XO=crystal connections, I = Input, O = output, P = power supply connection
MDS 307 D
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Revision 042501
Integrated Circuit Systems, Inc. • 525 Race Street • San Jose •CA•95126•(408) 295-9800tel •www.icst.com
ICS307
Serially Programmable Clock Source
Determining the Output Frequency
On power-up the ICS307-01 on-chip registers can have random values, so almost any frequency may be
output from the part. CLK1 will always have some clock signal present, but CLK2 could possibly be OFF
(low).
The ICS307-02 on-chip registers are initially configured to provide a x1 output clock on both the CLK1
and CLK2 outputs. The output frequency will be the same as the input clock or crystal. This is useful if
the ICS307 will provide the initial system clock at power-up. Since this feature is an advantage in most
systems, the ICS307-02 is recommended for new designs.
With programming, the user has full control in changing the desired output frequency to any value over the
range shown in Table 1 on page 4. The output of the ICS307 can be determined by the following simple
equation:
(VDW+8)
CLK1 frequency = Input frequency • 2 • (RDW+2)(OD)
Where
VCO Divider Word (VDW) = 4 to 511 (0, 1, 2, 3 are not permitted)
Reference Divider Word (RDW) = 1 to 127 (0 is not permitted)
Output Divider = values on page 4
Also, the following operating ranges should be observed:
(VDW+8)
55 MHz < Input frequency • 2 • (RDW+2)
200 kHz <
< 400 MHz
Commercial temperature range.
Industrial temperature limits are
60 MHz to 360 MHz.
Input Frequency
(RDW+2)
To determine the best combination of VCO, reference, and output dividers, contact ICS application
engineering. You may also fax this page to ICS at 408 295 9818(fax). Be sure to indicate the following:
Your Name ________________ Company Name___________________ Telephone_________________
Respond by e-mail (list your e-mail address) __________________or fax number ___________________
Desired input crystal_______ or clock_______ (in MHz) Desired output frequency_______________
REF Output_______VDD = 3.3V or 5V _______ Duty Cycle: 40-60% _____ or 45-55% required____
MDS 307 D
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Revision 042501
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ICS307
Serially Programmable Clock Source
Setting the Device Characteristics
The tables below show the settings which can be configured, in addition to the VCO and Reference dividers.
Table 1. Output Divide and
Maximum Output Frequency
Max. Freq.
CLK1 Maximum
Frequency
Industrial
S2 S1 S0 Output
Version
Divide 5 V or 3.3 V
0
0
0
0
1
1
1
1
0
0
1
1
0
0
1
1
0
1
0
1
0
1
0
1
10
2
8
4
5
7
3
6
40
200
50
100
80
55
135
67
Duty cycle measured at
1.4V
VDD/2
F1
0
0
1
1
36
180
45
90
72
50
120
60
Table 3. Output Duty Cycle Configuration
TTL
0
1
Table 2. CLK2 Output
Recommended VDD
5V
3.3 V
Note: The TTL bit optimizes the duty cycle at
different VDD. When VDD is 5 V, set to 0
for a near-50% duty cycle with TTL levels.
When VDD is 3.3 V, set this bit to a 1, so the
50% duty cycle is achieved at VDD/2.
F0
0
1
0
1
CLK2
REF
REF/2
OFF (Low)
CLK1/2
0 = Connect directy to ground
1 = Connect directly to VDD
Table 4. Crystal Load Capacitance
C1
0
0
1
1
C0
0
1
0
1
VDD = 5 V
22.3 - 0.083 f
23.1 - 0.093 f
23.7 - 0.106 f
24.4 - 0.120 f
VDD = 3.3 V
22.1 - 0.094 f
22.9 - 0.108 f
23.5 - 0.120 f
24.2 - 0.135 f
Note: f is the crystal frequency, between 10 and
27 MHz. Effective load capacitance will be higher
for crystal frequencies lower than 10 MHz. If a
clock input is used, set C1 = 0 and C0 = 0.
MDS 307 D
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Revision 042501
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ICS307
Serially Programmable Clock Source
Configuring the ICS307
The ICS307 can be programmed to set the output functions and frequencies. The three data bytes are
written to the DATA pin, in this order:
C1 C0 TTL F1 F0
MSB
S2
S1
S0
LSB
V8 V7 V6 V5 V4 V3 V2 V1
MSB
LSB
V0 R6 R5 R4 R3 R2 R1 R0
MSB
LSB
C1 is loaded into the port first and R0 last.
R6:R0
V8:V0
S2:S0
F1:F0
TTL
C1:C0
Reference Divider Word (RDW)
VCO Divider Word (VDW)
Output Divider Select (OD)
Function of CLK2 Output
Duty Cycle Setting
Internal Load Capacitance for Crystal
Power up default values for ICS 307-02
0
0
1
0
0
0
1
1
0
0
0
0
0
1
0
0
0
0
0
0
0
1
1
0
The input frequency will come from both outputs.
Programming Example
To generate 66.66 MHz from a 14.31818 MHz input, the RDW should be 59, the VDW should be 276,
and the Output Divide is 2. Selecting the minimum internal load capacitance, CMOS duty cycle, and CLK2
to be OFF means that the following three bytes are sent to the ICS307:
00110001
Byte 1
10001010
Byte 2
00111011
Byte 3
As shown in Figure 2, after these 24 bits are clocked into the ICS307, taking STROBE high will send this data
to the internal latch, and the CLK output will lock within 10 ms.
NOTE: If STROBE is in the high state and SCLK is pulsed, DATA is clocked directly to the internal latch
and the output conditions will change accordingly. Although this will not damage the ICS307, it is
recommended that STROBE be kept low while DATA is being clocked into the ICS307 in order to avoid
unintended changes on the output clocks.
MDS 307 D
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Integrated Circuit Systems, Inc. • 525 Race Street • San Jose •CA•95126•(408) 295-9800tel •www.icst.com
ICS307
Serially Programmable Clock Source
DATA
C1
tsetup
C0
TTL
F1
•
•
•
R1
R0
thold
•
SCLK
•
•
ts
tw
STROBE
Figure 2. Timing Diagram for Programming the ICS307
AC Parameters for Writing to the ICS307
Parameter
t SETUP
t HOLD
tw
ts
Condition
Setup time.
Hold time after SCLK.
Data wait time.
Strobe pulse width
Min
10
10
10
40
Max
Units
ns
ns
ns
ns
External Components / Crystal Selection
The ICS307 require a 0.01µF decoupling capacitor to be connected between VDD and GND. It must be
connected close to the ICS307 to minimize lead inductance. A 33 Ω terminating resistor can be used in
series with the CLK1 and CLK2 outputs. A parallel resonant, fundamental mode crystal with a load
(correlation) capacitance of C should be used, where C is the value calculated from Table 4. For crystals
with a specified load capacitance greater than C, additional crystal capacitors may be connected from each
of the pins X1 and X2 to Ground as shown in the Block Diagram on page 1. The value (in pF) of these
crystal caps should be = (CL -C)*2, where CL is the crystal load capacitance in pF. These external
capacitors are only required for applications where the exact frequency is critical. For a clock input,
connect to X1 and leave X2 unconnected (no capacitors on either pin).
MDS 307 D
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Revision 042501
Integrated Circuit Systems, Inc. • 525 Race Street • San Jose •CA•95126•(408) 295-9800tel •www.icst.com
ICS307
Serially Programmable Clock Source
Electrical Specifications
Parameter
Conditions
Minimum
ABSOLUTE MAXIMUM RATINGS (Note 1)
Supply Voltage, VDD
Referenced to GND
Inputs
Referenced to GND
-0.5
Clock Output
Referenced to GND
-0.5
Ambient Operating Temperature
0
Ambient Operating Temperature, Industrial
I version
-40
Soldering Temperature
Max of 10 seconds
Storage temperature
-65
DC CHARACTERISTICS (VDD = 5.0 V unless otherwise noted)
Operating Voltage, VDD
3
Input High Voltage, VIH, X1/ICLK only
ICLK (Pin 1)
(VDD/2)+1
Input Low Voltage, VIL, X1/ICLK only
ICLK (Pin 1)
Input High Voltage, VIH
2
Input Low Voltage, VIL
PDTS, ICS307-01 only
All other inputs,-01 & -02
Output High Voltage, VOH, CMOS level
IOH=-4 mA
VDD-0.4
Output High Voltage, VOH
IOH=-25 mA
2.4
Output Low Voltage, VOL
IOL=25 mA
IDD Operating Supply Current, 20 MHz crystal
No Load, 100 MHz out
100MHz out,VDD=3.3V
Short Circuit Current
CLK1 and CLK2 outputs
On-Chip Pull-up Resistor
Pin 13
Input Capacitance
AC CHARACTERISTICS
Input Frequency, crystal input (must be fundamental)
5
Input Frequency, clock input
2
Output Frequency (See Table 1)
VDD = 3.0 to 5.5V
6
6
Output Frequency (see Table 1), I version
VDD = 3.0 to 5.5V
Output Clock Rise Time
0.8 to 2.0V
Output Clock Fall Time
2.0 to 0.8V
Output Clock Duty Cycle, even output divides
At duty cycle level
45
Output Clock Duty Cycle, odd output divides
At duty cycle level
40
Power-up time, STROBE goes high until CLK out
Absolute Maximum Clock Period Jitter
Deviation from mean
One Sigma Clock Period Jitter
Typical
VDD/2
VDD/2
Maximum
Units
7
VDD+0.5
VDD+0.5
70
85
260
150
V
V
V
°C
°C
°C
°C
5.5
V
V
V
V
V
(VDD/2)-1
0.4
0.8
0.4
26
13
±70
270
4
27
50
200
180
1
1
49 to 51
3
±120
50
55
60
10
V
V
V
mA
mA
mA
kΩ
pF
MHz
MHz
MHz
MHz
ns
ns
%
%
ms
ps
ps
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. Typical values are at 25°C.
MDS 307 D
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ICS307
Serially Programmable Clock Source
Package Outline and Package Dimensions
(For current dimensional specifications, see JEDEC Publication No. 95.)
16 pin SOIC narrow
Symbol
A
A1
E
H
B
C
INDEX
AREA
1
D
E
e
H
h
L
2
h x 45°
D
A1
e
B
C
Inches
Min
Max
0.0532 0.0688
0.0040 0.0098
0.0130 0.0200
0.0075 0.0098
0.3859 0.3937
0.1497 0.1574
.050 BSC
0.2284 0.2440
0.0099 0.0195
0.0160 0.0500
Millimeters
Min
Max
1.35
1.75
0.10
0.24
0.33
0.51
0.19
0.24
9.80
10.00
3.80
4.00
1.27 BSC
5.80
6.20
0.25
0.50
0.41
1.27
A
L
Ordering Information
Part/Order Number
ICS307M-01
ICS307M-01T
ICS307M-01I
ICS307M-01IT
ICS307M-02
ICS307M-02T
ICS307M-02I
ICS307M-02IT
Marking
ICS307M-01
ICS307M-01
ICS307M-01I
ICS307M-01I
ICS307M-02
ICS307M-02
ICS307M-02I
ICS307M-02I
Package
16 pin SOIC
16 pin SOIC on tape and reel
16 pin SOIC
16 pin SOIC on tape and reel
16 pin SOIC
16 pin SOIC on tape and reel
16 pin SOIC
16 pin SOIC on tape and reel
Temperature
0 to 70 °C
0 to 70 °C
-40 to 85°C
-40 to 85°C
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, Inc. (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.
MDS 307 D
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Revision 042501
Integrated Circuit Systems, Inc. • 525 Race Street • San Jose •CA•95126•(408) 295-9800tel •www.icst.com