ICS M2040-01

Product Data Sheet
Integrated
Circuit
Systems, Inc.
M2040
FREQUENCY TRANSLATION PLL WITH AUTOSWITCH
The M2040 is a VCSO (Voltage Controlled SAW
Oscillator) based clock generator
PLL designed for clock protection,
frequency translation and jitter
attenuation in fault tolerant
computing applications. It features
dual differential inputs with two
modes of input selection: manual
and automatic upon clock failure. The clock
multiplication ratios and output divider ratio are
pin selectable. External loop components allow the
tailoring of PLL loop response.
FIN_SEL0
MR_SEL
REF_ACK
LOL
NBW
VCC
DNC
DNC
DNC
28
29
30
31
32
33
34
35
36
P_SEL
INIT
nFOUT0
FOUT0
GND
nFOUT1
FOUT1
VCC
GND
18
17
16
15
14
13
12
11
10
M2040
(Top View)
1
2
3
4
5
6
7
8
9
FEATURES
FIN_SEL1
GND
AUTO
DIF_REF0
nDIF_REF0
REF_SEL
DIF_REF1
nDIF_REF1
VCC
PIN ASSIGNMENT (9 x 9 mm SMT)
27
26
25
24
23
22
21
20
19
GENERAL DESCRIPTION
◆ Narrow Bandwidth control input (NBW Pin);
Initialization (INIT) input overrides NBW at power-up
◆ Dual reference clock inputs support LVDS, LVPECL,
LVCMOS, LVTTL
◆ Automatic (non-revertive) reference clock reselection
upon clock failure; controlled PLL slew rate ensures
normal system operation during reference reselection
◆ Acknowledge pin indicates the actively selected
reference input
GND
GND
GND
OP_IN
nOP_OUT
nVC
VC
OP_OUT
nOP_IN
◆ Integrated SAW (surface acoustic wave) delay line;
VCSO frequency of 400.00 or 533.3334 MHz;* outputs
VCSO frequency or half; pin-configurable dividers
◆ Loss of Lock (LOL) indicator output
Figure 1: Pin Assignment
Example Input / Output Frequency Combinations
Input (MHz) VCSO * (MHz)
200.0000
400.0000
213.3333
266.6667
533.3334
284.4444
Output (MHz)
200.0000
400.0000
266.6667
533.3334
Table 1: Example Input / Output Frequency Combinations
* Specify VCSO center frequency at time of order.
◆ Dual differential LVPECL outputs
◆ Low phase jitter of < 0.5ps rms, typical
(12kHz to 20MHz or 50kHz to 80MHz)
◆ Industrial temperature available
◆ Single 3.3V power supply
◆ Small 9 x 9 mm SMT (surface mount) package
SIMPLIFIED BLOCK DIAGRAM
Loop Filter
M2040
NBW
PLL
Phase
Detector
MUX
DIF_REF0
nDIF_REF0
0
DIF_REF1
nDIF_REF1
1
R Div
VCSO
REF_ACK
REF_SEL
0
1
AUTO
M Div
Mfin Divider
LOL
Phase
Detector
Auto
INIT
Ref Sel
FOUT0
nFOUT0
LOL
FIN_SEL1:0
P Divider
M / R Divider
MR_SEL
FOUT1
nFOUT1
LUT
2
Mfin Divider
LUT
P_SEL
Figure 2: Simplified Block Diagram
M2040 Datasheet Rev 1.0
Revised 28Jan2005
M2040 Frequency Translation PLL with AutoSwitch
Integrated Circuit Systems, Inc.
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M2040
Integrated
Circuit
Systems, Inc.
FREQUENCY TRANSLATION PLL WITH AUTOSWITCH
Product Data Sheet
PIN DESCRIPTIONS
Number
1, 2, 3, 10, 14, 26
4
9
5
8
6
7
Name
GND
OP_IN
nOP_IN
nOP_OUT
OP_OUT
nVC
VC
I/O
Configuration
11, 19, 33
VCC
12
13
15
16
FOUT1
nFOUT1
FOUT0
nFOUT0
17
INIT
18
P_SEL
Internal pull-down1
20
nDIF_REF1
Biased to Vcc/2 2
21
DIF_REF1
22
REF_SEL
23
nDIF_REF0
24
DIF_REF0
25
AUTO
Input
Internal pull-down resistor1
27
28
FIN_SEL1
FIN_SEL0
Input
Internal pull-UP resistor1
29
MR_SEL
Input
Internal pull-UP resistor1
30
REF_ACK
Output
31
LOL
Output
32
NBW
Input
34, 35, 36
DNC
Ground
Description
Power supply ground connections.
Input
External loop filter connections. See Figure 5,
External Loop Filter, on pg. 7.
Output
Input
Power
Power supply connection, connect to +3.3V.
Output
No internal terminator
Clock output pair 1. Differential LVPECL.
Output
No internal terminator
Clock output pair 0. Differential LVPECL.
Input
Internal pull-UP resistor1
Input
Internal pull-down resistor1
Input
Internal pull-down resistor1
Biased to Vcc/2 2
Input
Internal pull-down resistor1
Internal pull-UP resistor1
Power-on Initialization; LVCMOS/LVTTL:
Logic 1 allows device to enter narrow mode if
selected (in addition must have 8 LOL=0 counts)
Logic 0 forced device into wide bandwidth mode.
Post-PLL , P divider selection. LVCMOS/LVTTL.
See Table 5, P Divider Selector Values
and Frequencies, on pg. 3.
Reference Differential LVPECL/ LVDS
clock input Differential LVPECL/ LVDS, or single
pair 1.
ended LVCMOS/ LVTTL
Reference clock input selection. LVCMOS/LVTTL.
Logic 1 selects DIF_REF1/nDIF_REF1 inputs
Logic 0 selects DIF_REF0/nDIF_REF0 inputs
Reference Differential LVPECL/ LVDS
clock input Differential LVPECL/ LVDS, or single
pair 0.
ended LVCMOS/ LVTTL
Automatic/manual reselection mode for clock input:
Logic 1 automatic reselection upon clock failure
(non-revertive)
Logic 0 manual selection only (using REF_SEL)
Input clock frequency selection. LVCMOS/LVTTL.
(For FIN_SEL1:0, see Table 3 on pg. 3.)
M & R PLL divider ratio selection. LVCMOS/ LVTTL.
(For MR_SEL, see Table 4 on pg. 3.)
Reference Acknowledgement pin for input mux state;
outputs the currently selected reference input pair:
Logic 1 indicates nDIF_REF1, DIF_REF1
Logic 0 indicates nDIF_REF0, DIF_REF0
Loss of Lock indicator output. 3
Logic 1 indicates loss of lock.
Logic 0 indicates locked condition.
Narrow Bandwidth enable. LVCMOS/LVTTL:
Logic 1 - Narrow loop bandwidth, RIN = 2100kΩ.
Logic 0 - Wide (normal) bandwidth, RIN = 100kΩ.
Do Not Connect.
Table 2: Pin Descriptions
Note 1: For typical values of internal pull-down and pull-up resistors, see DC Characteristics on pg. 8.
Note 2: Biased to Vcc/2, with 50kΩ to Vcc and 50kΩ to ground. Float if using DIF_REF1 as LVCMOS input. See DC Characteristics on pg. 8.
Note 3: See LVCMOS Outputs in DC Characteristics on pg. 8.
M2040 Datasheet Rev 1.0
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M2040
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FREQUENCY TRANSLATION PLL WITH AUTOSWITCH
Product Data Sheet
DETAILED BLOCK DIAGRAM
R LOOP
C LOOP
R POST
External
Loop Filter
Components
C POST
C POST
R LOOP
OP_IN
M2040
nOP_IN
C LOOP
R POST
OP_OUT
nOP_OUT
nVC
VC
NBW
PLL
Phase
Detector
MUX
DIF_REF0
nDIF_REF0
0
DIF_REF1
nDIF_REF1
1
R IN
Divider
R IN
SAW Delay Line
Phase
Locked
Loop
(PLL)
R
Loop Filter
Amplifier
Phase
Shifter
VCSO
REF_ACK
M
REF_SEL
0
1
AUTO
Mfin Divider
Divider
LOL
Phase
Detector
Auto
Ref Sel
INIT
FOUT0
nFOUT0
LOL
FIN_SEL1:0
P Divider
M / R Divider
MR_SEL
FOUT1
nFOUT1
LUT
2
Mfin Divider
LUT
P_SEL
Figure 3: Detailed Block Diagram
PLL DIVIDER SELECTION TABLES
Mfin (Frequency Input) Divider Look-Up Table (LUT)
Post-PLL Divider
The FIN_SEL1:0 pins select the feedback divider value
(“Mfin”).
The M2040 also features a post-PLL (P) divider for the
output clocks. It divides the VCSO frequency to produce
one of two selectable output frequencies (1/2 or 1/1 of
the VCSO frequency). That selected frequency appears
on both clock output pairs. The P_SEL pin selects the
value for the P divider.
FIN_SEL1:0
1
1
0
0
1
0
1
0
Mfin Value
1
4
8
32
Example: M2040-533.3334
Table 3: Mfin (Frequency Input) Divider Look-Up Table (LUT)
M / R Divider Ratio Look-up Table (LUT)
The MR_SEL pin selects the feedback and reference
divider values M and R, respectively.
MR_SEL M R
0
1
P_SEL
P Value
1
0
2
1
Output Frequency
(MHz)
266.6667
533.3334
Table 5: P Divider Selector Values and Frequencies
Description
Used when Fin = 32/16 = 1/2 Fvcso
32 16
(e.g., Fin=266.6667MHz, Fvcso= 533.3334MHz1)
Used when Fin = 30/16 = 0.53334 Fvcso
30 16
(e.g., Fin=284.444MHz, Fvcso= 533.3334 MHz 1)
Table 4: M / R Divider Ratio Look-up Table (LUT)
Note 1: Fvcso= Example 533.3334MHz in M2040-01-533.3334.
M2040 Datasheet Rev 1.0
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M2040
Integrated
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Systems, Inc.
FREQUENCY TRANSLATION PLL WITH AUTOSWITCH
Product Data Sheet
FUNCTIONAL DESCRIPTION
Input Reference Clocks
The M2040 is a PLL (Phase Locked Loop) based clock
generator that generates two output clocks
synchronized to one of two selectable input reference
clocks. An internal high “Q” SAW delay line provides a
low jitter clock output.
Two clock reference inputs and a selection mux are
provided. Either reference clock input can accept a
differential clock signal (such as LVPECL or LVDS) or
a single-ended clock input (LVCMOS or LVTTL on the
non-inverting input).
The device is pin-configured for feedback divider and
output divider values. Output is LVPECL compatible.
External loop filter component values set the PLL
bandwidth to optimize jitter attenuation characteristics.
The device features dual differential inputs with two
input selection modes: manual and automatic upon
clock failure. (The differential inputs are internally
configured for easy single-ended operation.)
A single-ended reference clock on the unselected
reference input can cause an increase in output
clock jitter. For this reason, differential reference
inputs are preferred; interference from a differential
input on the non-selected input is minimal.
Configuration of a single-ended input has been
facilitated by biasing nDIF_REF0 and nDEF_REF1 to Vcc/2,
with 50kΩ to Vcc and 50kΩ to ground. The input clock
structure, and how it is used with either
LVCMOS/LVTTL inputs or a DC- coupled LVPECL
clock, is shown in Figure 4.
The M2040 includes: a Loss of Lock (LOL) indicator, a
reference mux state acknowledge pin (REF_ACK), a
Narrow Bandwidth control input pin (NBW pin), and a
Power-on Initialization (INIT) input (which overrides
NBW=0 to facilitate acquisition of phase lock).
Hitless Switching (HS) is an optional feature that
provides a controlled output clock phase change during
a reference clock reselection. HS is triggered by a Loss
of Lock detection by the PLL.
LVCMOS/
LVTTL
DIF_REF0
50k Ω
VCC
50k Ω
nDIF_REF0
50k Ω
1
Ω127
Ω82
LVPECL
0
X
VCC
DIF_REF1
MUX
VCC
50k Ω
VCC
127 Ω
50kΩ
82 Ω
50kΩ
nDIF_REF1
REF_SEL
Figure 4: Input Reference Clocks
Differential Inputs
Differential LVPECL inputs are connected to both
reference input pins in the usual manner. The external
load termination resistors shown in Figure 4 (the 127Ω
and 82Ω resistors) is ideally suited for both AC and DC
coupled LVPECL reference clock lines. These provide
the 50Ω load termination and the VTT bias voltage.
Single-ended Inputs
Single-ended inputs (LVCMOS or LVTTL) are
connected to the non-inverting reference input pin
(DIF_REF0 or DIF_REF1). The inverting reference input pin
(nDIF_REF0 or nDIF_REF1) must be left unconnected.
In single-ended operation, when the unused inverting
input pin (nDIF_REF0 or nDEF_REF1) is left floating (not
connected), the input will self-bias at VCC/2.
M2040 Datasheet Rev 1.0
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M2040
Integrated
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Systems, Inc.
FREQUENCY TRANSLATION PLL WITH AUTOSWITCH
Product Data Sheet
PLL Operation
Loss of Lock Indicator Output Pin
The M2040 is a complete clock PLL. It uses a phase
detector and configurable dividers to synchronize the
output of the VCSO with the selected reference clock.
Under normal device operation, when the PLL is locked,
LOL remains at logic 0. Under circumstances when the
VCSO cannot lock to the input (as measured by a
greater than 4 ns discrepancy between the feedback
and reference clock rising edges at the phase detector)
the LOL output goes to logic 1. The LOL pin will return
back to logic 0 when the phase detector error is less
than 2 ns. The loss of lock indicator is a low current
CMOS output.
The “M” divider (and the “Mfin” divider) divides the
VCSO output frequency, feeding the result into the plus
input of the phase detector.
The frequency input (“Mfin”) divider gives the device
the capability to be adapted for use with other input
frequencies.
Narrow Loop Bandwidth Control Pin (NBW Pin)
The output of the “R” divider is fed into the minus input
of the phase detector. The phase detector compares its
two inputs. The phase detector output, filtered
externally, causes the VCSO to increase or decrease in
frequency as needed to phase- and frequency-lock the
VCSO to the reference input.
The value of M plus Mfin directly affects closed loop
bandwidth.
A Narrow Loop Bandwidth control pin (NBW pin) is
included to adjust the PLL loop bandwidth. In normal
(wide) bandwidth mode (NBW=0), the internal resistor
Rin is 100kΩ . With the NBW pin asserted, the internal
resistor Rin is changed to 2100kΩ. This lowers the loop
bandwidth by a factor of about 21 (2100 / 100) and
lowers the damping factor by about 4.6 (the square root
of 21), assuming the same loop filter components.
The relationship between the nominal VCSO center
frequency (Fvcso), the M divider, and the input
reference frequency (Fref_clk) is:
M × Mfin
R
Fvcso = Fref_clk × -------------------------The M, R, and Mfin dividers can be set by pin
configuration using the input pins MR_SEL, FIN_SEL1, and
FIN_SEL0.
P Divider and Outputs
The M2040 provides two differential LVPECL output
pairs: FOUT0 and FOUT1. One output divider (the “P”
divider) is used for both the FOUT0 and FOUT1 output
pairs. By using the P divider, the output frequency can
be the VCSO frequency (Fvcso) or 1/2 Fvcso.
The P_SEL pin selects the value for the P divider: logic 1
sets P to divide-by-2, logic 0 sets P to divide-by-1.
See Table 5, P Divider Selector Values
and Frequencies, on pg. 3.
When the P divider is included, the complete relationship for the output frequency (Fout) is defined as:
M × Mfin
Fvcso = Fref_clk × ------------------------Fout = ------------------P
R× P
M2040 Datasheet Rev 1.0
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FREQUENCY TRANSLATION PLL WITH AUTOSWITCH
Product Data Sheet
Automatic Reference Clock Reselection
This device offers an automatic reference clock
reselection feature for switching input reference clocks
upon a reference clock failure. With the AUTO input pin
set to high and the LOL output low, the device is placed
into automatic reselection (AutoSwitch) mode.
Once in AutoSwitch mode, when LOL then goes high
(due to a reference clock fault), the input clock
reference is automatically reselected internally, as
indicated by the state change of the REF_ACK output.
Automatic clock reselection is made only once (it is
non-revertive). Re-arming of automatic mode requires
placing the device into manual selection (Manual
Select) mode (AUTO pin low) before returning to
AutoSwitch mode (AUTO pin high).
Once a reference fault occurs, the LOL output goes high
and the input reference is automatically reselected. The
REF_ACK output always indicates the reference selection
status and the LOL output always indicates the PLL lock
status.
A successful automatic reselection is indicated by a
change of state of the REF_ACK output and a momentary
level high of the LOL output (minimum high time is 10ns).
If an automatic reselection is made to a non-valid
reference clock (one to which the PLL cannot lock),
the REF_ACK output will change state but the LOL
output will remain high.
No further automatic reselection is made; only one
reselection is made each time the AutoSwitch mode is
armed. AutoSwitch mode is re-armed by placing the
device into Manual Select mode (AUTO pin low) and then
into AutoSwitch mode again (AUTO pin high).
Using the AutoSwitch Feature
See also Table 6, Example AutoSwitch Sequence.
In application, the system is powered up with the device
in Manual Select mode (AUTO pin is set low), allowing
sufficient time for the reference clock and device PLL to
settle. The REF_SEL input selects the reference clock to
be used in Manual Select mode and the initial reference
clock used in AutoSwitch mode. The REF_SEL input state
must be maintained when switching to AutoSwitch
mode (AUTO pin high) and must still be maintained until a
reference fault occurs.
Following an automatic reselection and prior to
selecting Manual Select mode (AUTO pin low), the
REF_SEL pin has no control of reference selection.
To prevent an unintential reference reselection,
AutoSwitch mode must not be re-enabled until the
desired state of the REF_SEL pin is set and the LOL output
is low. It is recommended to delay the re-arming of
AutoSwitch mode, following an automatic reselection, to
ensure the PLL is fully locked on the new reference. In
most system configurations, where loop bandwidth is in
the range of 100-1000 Hz and damping factor below 10,
a delay of 500 ms should be sufficient. Until the PLL is
fully locked intermittent LOL pulses may occur.
Example AutoSwitch Sequence
0 = Low; 1 = High. Example with REF_SEL initially set to 0 (i.e., DIF_REF0 selected)
REF_SEL Selected REF_ACK AUTO LOL Conditions
Input
Clock Input
Output
Input
Output
0
DIF_REF0
0
0
1
0
DIF_REF0
0
0
-0-
0
DIF_REF0
0
-1-
0
0
DIF_REF0
0
1
0
0
0
DIF_REF0
-DIF_REF1-
0
-1-
1
1
-11
LOL to 1: Clock fault on DIF_REF0, loss of lock indicated by LOL pin, ...
... and immediate automatic reselection to DIF_REF1 (indicated by REF_ACK pin).
0
DIF_REF1
1
1
-0-
LOL to 0: Device locks to DIF_REF1 (assuming valid clock on DIF_REF1).
-1-
DIF_REF1
1
1
0
REF_SEL set to 1: Prepares for Manual Selection of DIF_REF1 before then re-arming AutoSwitch.
1
DIF_REF1
1
-0-
0
AUTO set to 0: Manual Select mode entered briefly, manually selecting DIF_REF1 as reference.
1
DIF_REF1
1
-1-
0
AUTO set to 1: Device is placed in AutoSwitch mode (delay recommended to ensure device fully
locked), re-initializing AutoSwitch with DIF_REF1 now specified as the initial reference clock.
Initialization
Device power-up. Manual Select mode. DIF_REF0 input selected reference, not yet locked to.
LOL to 0: Device locked to reference (may get intermittent LOL pulses until fully locked).
AUTO set to 1: Device placed in AutoSwitch mode (with DIF_REF0 as initial reference clock).
Operation & Activation
Normal operation with AutoSwitch mode armed, with DIF_REF0 as initial reference clock.
Re-initialization
Table 6: Example AutoSwitch Sequence
M2040 Datasheet Rev 1.0
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FREQUENCY TRANSLATION PLL WITH AUTOSWITCH
Product Data Sheet
Hitless Switching Option
Hitless Switching is a device option that can be
specified at time of order. (Please contact ICS.) The
M2040-01 remains in wide bandwidth mode if NBW = 0.
When NBW = 0, placing the device into wide bandwidth
operation, the optional Hitless Switching (HS) function
will automatically place the device into narrow
bandwidth operation during reference reselection. This
provides a controlled output clock phase change while
the PLL is acquiring phase lock to a new reference
clock phase. The HS function is trigged by a loss of lock
event. Wide bandwidth is resumed once the PLL
relocks to the input reference. (When the NBW pin = 1,
the device operates in narrow bandwidth continually
and hence the HS mode does not apply).
occur without a single LOL event. Once the eight valid
PLL locked states have occurred, the PLL bandwidth is
automatically reduced to narrow bandwidth mode.
When INIT is logic 0, the device is forced into wide
bandwidth mode unconditionally.
External Loop Filter
The M2040 requires the use of an external loop filter
components. These are connected to the provided filter
pins (see Figure 5).
Because of the differential signal path design, the
implementation consists of two identical
complementary RC filters as shown in Figure 5, below.
RLOOP
The HS function is armed after the device locks to the
input clock reference (8 successive phase detector
clock cycles with LOL low). Once armed, HS is
triggered by detection at the phase detector of a single
phase error greater than 4 ns (rising edges).
Power-Up Initialization Function (INIT Pin)
The initialization function provides a short-term override
of the narrow bandwidth mode when the device is
powered up in order to facilitate phase locking.
When INIT is set to logic 1, initialization is enabled. With
NBW set to logic 1 (narrow bandwidth mode), the
initialization function puts the PLL into wide bandwidth
mode until eight consecutive phase detector cycles
RPOST
CPOST
CPOST
RLOOP
Once triggered, the HS function narrows the loop bandwidth until the PLL is locked to the selected reference (8
successive phase detector clock cycles with LOL low).
When pin AUTO = 1 (automatic reference reselection
mode) HS is used in conjunction with input reselection.
When AUTO = 0 (manual mode), HS will still occur upon
an input phase transient, however the clock input is not
reselected (this enables hitless switching when using an
external MUX for clock selection).
CLOOP
OP_IN
nOP_IN
4
RPOST
CLOOP
OP_OUT
9
nOP_OUT
8
nVC
5
VC
6
7
Figure 5: External Loop Filter
PLL bandwidth is affected by the total “M” (feedback
divider) value, loop filter component values, and other
device parameters. See Table 7, External Loop Filter
Component Values, below.
PLL Simulator Tool Available
A free PC software utility is available on the ICS website
(www.icst.com). The M2000 Timing Modules PLL
Simulator is a downloadable application that simulates
PLL jitter and wander transfer characteristics. This
enables the user to set appropriate external loop
component values in a given application.
External Loop Filter Component Values 1
VCSO Parameters: KVCO = 800kHz/V, VCO Bandwidth = 700kHz. See AC Characteristics on pg. 9 for PLL Loop Constants.
Device Configuration
FVCSO
(MHz)
533.333
External Loop Filter Component Values
M
Divider R loop C loop
Value
30, 32
1.0µF
30kΩ
R post
C post
33kΩ
100pF
Nominal Performance Using These Values
NBW
Mode2
1
0
PLL Loop
Bandwidth
Damping Passband
Factor Peaking (dB)
110 Hz
2.2
0.35
3 kHz
10
0.02
Table 7: External Loop Filter Component Values
Note 1: Recommended values for hitless switching. For PLL Simulator software, go to www.icst.com.
Note 2: NBW mode 1 = Narrow Bandwidth, where RIN = 2100 kΩ . NBW mode 0 = Wide Bandwidth, where RIN = 100 kΩ.
Note 3: This table does not apply to the 400 MHz VCSO option since the Kvco value is different.
M2040 Datasheet Rev 1.0
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FREQUENCY TRANSLATION PLL WITH AUTOSWITCH
Product Data Sheet
ABSOLUTE MAXIMUM RATINGS1
Symbol Parameter
Rating
Unit
VI
Inputs
-0.5 to VCC +0.5
V
VO
Outputs
-0.5 to VCC +0.5
V
VCC
Power Supply Voltage
TS
V
4.6
Storage Temperature
o
-45 to +100
C
Table 8: Absolute Maximum Ratings
Note 1: Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the
device. These ratings are stress specifications only. Functional operation of product at these conditions
or any conditions beyond those listed in Recommended Conditions of Operation, DC Characteristics, or
AC Characteristics is not implied. Exposure to absolute maximum rating conditions for extended periods
may affect product reliability.
RECOMMENDED CONDITIONS OF OPERATION
Symbol Parameter
VCC
TA
Positive Supply Voltage
Ambient Operating Temperature
Commercial
Industrial
Min
Typ
Max
Unit
3.135
3.3
3.465
V
oC
+70
+85
0
-40
oC
Table 9: Recommended Conditions of Operation
ELECTRICAL SPECIFICATIONS
DC Characteristics
Unless stated otherwise, VCC = 3.3V +5%,TA = 0 oC to +70 oC (commercial), TA = -40 oC to +85 oC (industrial), FVCSO = 400-534,
LVPECL outputs terminated with 50Ω to VCC - 2V
Symbol Parameter
Power Supply VCC
Positive Supply Voltage
ICC
Power Supply Current
Differential
Input: LVDS
/ LVPECL
VP-P
VCMR
Peak to Peak Input
Voltage 1
Common Mode Input 1
LVCMOS /
LVTTL Input
VIH
Input High Voltage
VIL
Input Low Voltage
Inputs with
Pull-down
IIH
Input High Current
IIL
Input Low Current
DIF_REF, nDIF_REF
Min
Typ
Max
Unit Conditions
3.135
3.3
3.465
V
175
225
0.15
V
0.5
Vcc - 0.85 V
2
Vcc + 0.3 V
REF_SEL, MR_SEL
-0.3
DIF_REF1, DIF_REF0
IIH
Input High Current
IIL
Input Low Current
Rpullup
Internal Pull-up Resistor
V
150
µA
µA
µA
5
FIN_SEL1, FIN_SEL0,
INIT, MR_SEL
µA
-150
Differential
Outputs
FOUT1, nFOUT1
FOUT0, nFOUT0
VCC = 3.456V
VIN = 0 V
kΩ
51
nDIF_REF1, nDIF_REF0
All Inputs
VCC = VIN =
3.456V
kΩ
51
Inputs biased to Vcc/2 2
All Inputs
CIN
Input Capacitance
LVCMOS
Outputs
1.3
-5
Rpulldown Internal Pull-down Resistor
Inputs with
Pull-up
mA
(Note 2)
pF
4
VOH
Output High Voltage
Vcc - 1.4
Vcc - 1.0 V
VOL
Output Low Voltage
VP-P
Peak to Peak Output Voltage 3
Vcc - 2.0
Vcc - 1.7 V
0.4
0.85
V
VOH
Output High Voltage, Lock
2.4
VCC
V
IOH= 1mA
VOL
Output Low Voltage, Lock
GND
0.4
V
IOL= 1mA
LOL , REF_ACK
Note 1: Single-ended measurement. See Figure 7, Differential Input Level on pg. 10.
Note 2: Biased to Vcc/2, with 50kΩ to Vcc and 50kΩ to ground.
Note 3: Single-ended measurement. See Figure 6, Input and Output Rise and Fall Time on pg. 10.
M2040 Datasheet Rev 1.0
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Table 10: DC Characteristics
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FREQUENCY TRANSLATION PLL WITH AUTOSWITCH
Product Data Sheet
ELECTRICAL SPECIFICATIONS (CONTINUED)
AC Characteristics
Unless stated otherwise, VCC = 3.3V +5%,TA = 0 oC to +70 oC (commercial), TA = -40 oC to +85 oC (industrial), FVCSO = 400-534,
LVPECL outputs terminated with 50Ω to VCC - 2V
Symbol Parameter
PLL Loop
Constants 1
Min
Typ
Max
Unit Conditions
FIN
Input Frequency
DIF_REF1, nDIF_REF1,
DIF_REF0, nDIF_REF0
200
285
MHz
FOUT
Output Frequency
FOUT1, nFOUT1, FOUT0, nFOUT0
200
534
MHz
APR
VCSO Pull-Range
KVCO
VCO Gain
RIN
M2040-xx-400.0000
1600
ppm
ppm
kHz/V
M2040-xx-533.3334
800
kHz/V
NBW = 0
100
kΩ
NBW = 1
2100
kΩ
700
kHz
-72
-94
-123
Commercial
±120
±50
Industrial
Internal Loop Resistor
BWVCSO VCSO Bandwidth
Φn
Phase Noise
and Jitter
J(t)
Single Side Band
Phase Noise
@622.08MHz
1kHz Offset
0.25
0.5
FOUT =200-285MHz P = 2 (P_SEL = 1)
45
50
55
FOUT= 400-534MHz P = 1 (P_SEL = 0)
40
50
60
Output Rise Time
for FOUT1, nFOUT1,
FOUT =200-285MHz P = 2 (P_SEL = 1)
325
425
500
dBc/Hz
dBc/Hz
dBc/Hz
ps
ps
%
%
ps
FOUT0, nFOUT0
FOUT= 400-534MHz P = 1 (P_SEL = 0)
200
275
350
ps
Output Fall Time 2
for FOUT1, nFOUT1,
FOUT =200-285MHz P = 2 (P_SEL = 1)
325
425
500
ps
FOUT0, nFOUT0
FOUT= 400-534MHz P = 1 (P_SEL = 0)
200
275
350
ps
100
ms
10kHz Offset
100kHz Offset
Jitter (rms)
12kHz to 20MHz
50kHz to 80MHz
odc
Output Duty Cycle
2
2
tR
tF
tLOCK
±200
±150
PLL Lock Time
0.25
0.5
20% to 80%
20% to 80%
Table 11: AC Characteristics
Note 1: Parameters needed for PLL Simulator software; see Table 7, External Loop Filter Component Values, on pg. 7.
Note 2: See Parameter Measurement Information on pg. 10.
M2040 Datasheet Rev 1.0
Integrated Circuit Systems, Inc.
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FREQUENCY TRANSLATION PLL WITH AUTOSWITCH
Product Data Sheet
PARAMETER MEASUREMENT INFORMATION
Input and Output Rise and Fall Time
80%
Output Duty Cycle
nFOUT
80%
V P -P
Clock Inputs 20%
and Outputs
FOUT
20%
tF
tR
Figure 6: Input and Output Rise and Fall Time
odc =
tPW
(Output Pulse Width)
tPW
tPERIOD
Differential Input Level
Figure 8: Output Duty
Cycle
tPERIOD
VCC - 0.85
nDIF_CLK
VP-P
VCMR
Cross Points
DIF_CLK
+ 0.5
Figure 7: Differential Input Level
M2040 Datasheet Rev 1.0
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FREQUENCY TRANSLATION PLL WITH AUTOSWITCH
Product Data Sheet
DEVICE PACKAGE - 9 x 9mm SMT CERAMIC
Mechanical Dimensions:
Refer to the M2040 product web page at
www.icst.com/products/summary/m2040.htm
for links to recommended PCB footprint, solder
mask, furnace profile, and related information.
Figure 9: Device Package - 9 x 9mm SMT Ceramic
M2040 Datasheet Rev 1.0
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M2040
Product Data Sheet
FREQUENCY TRANSLATION PLL WITH AUTOSWITCH
ORDERING INFORMATION
M2040- 01 - xxx.xxxx
Part Number:
Temperature
“ - ” = 0 to +70 oC
(commercial)
I = - 40 to +85 oC (industrial)
Frequency (MHz)
Consult ICS for available VCSO frequencies
Figure 10: Ordering Information
Example Part Numbers
VCSO Freq
(MHz)
400.0000
533.3334
Temperature
commercial
industrial
commercial
industrial
Part Number
M2040-01 - 400.0000
M2040-01I 400.0000
M2040-01 - 533.3334
M2040-01I 533.3334
Table 12: Example Part Numbers
Consult ICS for the availability of other VCSO frequencies.
While the information presented herein has been checked for both accuracy and reliability, Integrated Circuit Systems (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.
M2040 Datasheet Rev 1.0
Integrated Circuit Systems, Inc.
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