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Integrated Circuit Systems
ICS1527
Video Clock Synthesizer General Description
The ICS1527 is a low-cost, high-performance frequency generator. It is suited to general purpose phase controlled clock synthesis as well as line-locked and genlocked high-resolution video applications. Using ICS's advanced low-voltage CMOS mixed-mode technology, the ICS1527 is an effective clock synthesizer that supports video projectors and displays at resolutions from VGA to beyond XGA. The ICS1527 offers single-ended clock outputs to 60 or 110 MHz. The HSYNC_out, and VSYNC_out pins provide the regenerated versions of the HSYNC and VSYNC inputs synchronous to the CLK output. The advanced PLL uses either its internal programmable feedback divider or an external divider. The device is programmed by a standard I2C-busTM serial interface and is available in a TSSOP16 package.
Features
* Lead-free packaging (Pb-free) * Low jitter (typical 27 ps short term jitter) * LVCMOS single-ended clock outputs * 60/110 MHz speed grades available * Uses 3.3 V power supply * 5 Volt tolerant Inputs (HSYNC, VSYNC) * Coast (ignore HSYNC) capability via VSYNC pin * Industry standard I2C-bus programming interface * PLL Lock detection via I2C or LOCK output pin * 16-pin TSSOP package
Applications
* Frequency synthesis * LCD monitors, video projectors and plasma displays * Genlocking multiple video subsystems
ICS1527 Functional Diagram
HSYNC VSYNC IC EXTFB External Divider CLK
2
Pin Configuration (16-pin TSSOP)
VSSD SDA SCL VSYNC EXTFB HSYNC VDDA VSSA
HSYNC_out
ICS1527
VSYNC_out
1 2 3 4 5 6 7 8
16 15 14 13 12 11 10 9
VDDD VSSQ VSYNC_out VDDQ CLK HSYNC_out LOCK I2CADR
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ICS reserves the right to make changes in the preliminary device data identified in this publication without notice. ICS advises its customers to obtain the latest version of all device data to verify that information being relied upon is current and accurate.
Revision 110905
ICS1527 Data Sheet
Section 1 Overview
Section 1
Overview
The ICS1527 has the ability to operate in line-locked mode with the HSYNC input.
The ICS1527 is a user-programmable, high-performance general purpose clock generator. It is intended for graphics system line-locked and genlocked applications, and provides the clock signals required by high-performance analog-to-digital converters.
1.1 Phase-Locked Loop
The phase-locked loop has a very wide input frequency range (8 kHz to 100 MHz). Not only is the ICS1527 an excellent, general purpose clock synthesizer, but it is also capable of line-locked operation. Refer to the block diagram below.
Figure 1-1
HSYNC
Simplified Block Diagram
CP VCO VCOD
2,4,8,16
PFD
CLK
FD
12..4103
EXTFB Flip-flop VSYNC Flip-flop HSYNC_out
VSYNC_out
Note: Polarity controls and other circuit elements are not shown in above diagram for simplicity The heart of the ICS1527 is a voltage controlled oscillator (VCO). The VCO speed is controlled by the voltage on the loop filter. This voltage will be described later in this section. The VCO's clock output is first passed through the VCO Divider (VCOD). The VCOD allows the VCO to operate at higher speeds than the required output clock. NOTE: Under normal, locked operation the VCOD has no effect on the speed of the output clocks, just the VCO frequency. The output of the VCOD is the full speed output frequency seen on the CLK. This clock is then sent through the 12-bit internal Feedback Divider (FD). The feedback divider controls how many clocks are seen during every cycle of the input reference. The Phase Frequency Detector (PFD) then compares the feedback to the input and controls the filter voltage by enabling and disabling the charge pump. The charge pump has programmable current drive and will source and sink current as appropriate to keep the
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input and the HSYNC_out output aligned. The input HSYNC and VSYNC can be conditioned by a high-performance Schmitt-trigger by sharpening the rising/falling edge. The HSYNC_out and VSYNC_out signals are aligned with the output clock (CLK) via a set of flip flops.
1.2 Output Drivers and Logic Inputs
The ICS1527 uses low-voltage TTL (LVTTL) inputs and LVCMOS outputs, operating at the 3.3 V supply voltage. The LVTTL inputs are 5 V tolerant. The LVCMOS drive resistive terminations or transmission lines.
1.3 Automatic Power-On Reset Detection
The ICS1527 has automatic power-on reset detection (POR) circuitry and it resets itself if the supply voltage drops below threshold values. No external connection to a reset signal is required.
Revision 110905
In te grated Circuit Systems, 525 Race Stre e t, Sa n Jose , CA 95 126, tel (408 ) 29 7-120 1 w w w. i c s t . c o m
ICS1527 Data Sheet
Section 1 Overview
1.4 I2C Bus Serial Interface
The ICS1527 uses a 5 volt tolerant, industry-standard I2C-bus serial interface that runs at either low-speed (100 kHz) or high-speed (400 kHz). The interface uses 12 word addresses for control and status: one write-only, eight read/write, and three read-only addresses. Two ICS1527 devices can sit on the same I2C bus, each selected by the Master according to the state of the I2CADR pin. The 7 bit device address is 0100110 (binary) when I2CADR is low. The device address is 0100111 (binary) when I2CADR is high. See Section 4, "Programming"
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Revision 110905
In te grated Circuit Systems, 525 Race Stre e t, Sa n Jose , CA 95 126, tel (408 ) 29 7-120 1 w w w. i c s t . c o m
ICS1527 Data Sheet
Section 2 Pin Descriptions
Section 2
Pin Descriptions
TYPE POWER IN/OUT IN IN IN IN POWER POWER IN LVCMOS OUT LVCMOS OUT LVCMOS OUT POWER LVCMOS OUT POWER POWER DESCRIPTION Digital ground Serial data Serial clock Vertical sync External feedback Horizontal sync Analog supply Analog ground I2C device address Lock HSYNC output Pixel clock output Output driver supply VSYNC output Output driver ground Digital supply From External Divider Clock input to PLL Power for analog circuitry Ground for analog circuitry Chip I2C address select PLL lock Schmitt-trigger filtered HSYNC realigned with the output pixel clock LVCMOS driver for full-speed clock Power for output drivers Schmitt-trigger filtered VSYNC realigned with the output pixel clock Ground for output drivers Power for digital sections I2C-bus I C-bus
2
Table 2-1 ICS1527 Pin Descriptions
PIN NO. PIN NAME
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 VSSD SDA SCL VSYNC EXTFB HSYNC VDDA VSSA I2CADR LOCK HSYNC_out CLK VDDQ VSYNC_out VSSQ VDDD
COMMENTS
Notes 1 1 1&2 1&2 1&2
Notes: 1. These LVTTL inputs are 5 V tolerant. 2. Connect to ground if unused.
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Revision 110905
In te grated Circuit Systems, 525 Race Stre e t, Sa n Jose , CA 95 126, tel (408 ) 29 7-120 1 w w w. i c s t . c o m
ICS1527 Data Sheet
Section 3 Register map summary
Section 3
Word Address 00h
Register map summary
Reset Value 1 0
Name Input Control
Access R/W
Bit Name CPen VSYNC_Pol
Bit # 0 1
Description Charge Pump Enable 0=External Enable via VSYNC, 1=Always Enabled VSYNC Polarity (Charge Pump Enable) Requires 00h:0=0 0=Coast (charge pump disabled) while VSYNC low, 1=Coast (charge pump disabled) while VSYNC high HSYNC Polarity 0=Rising Edge, 1=Falling Edge External Feedback Polarity 0=Positive Edge, 1=Negative Edge External Feedback Select 0=Internal Feedback, 1=External Reserved Enable PLL Lock Status Output 0=Disable, 1=Enable Reserved
HSYNC_Pol Fbk_Pol Fbk_Sel Reserved EnPLS Reserved
2 3 4 5 6 7
0 0 0 0 1 0
01h
Loop Control*
R/W
ICP0-2
0-2
ICP (Charge Pump Current) Bit 2,1,0 = {000 =1 A, 001 = 2 A, 010 = 4 A... 110 = 64 A, 111 = 128 A}. Increasing the PF Detector Gain makes the loop respond faster, raising the loop bandwidth. The typical value when using the internal loop filter is 011. Reserved VCO Divider Bit 5,4= {00 = /2, 01=/4, 10=/8, 11=/16} Reserved
Reserved VCOD0-1 Reserved
3 4-5 6-7
02h
FdBk Div 0*
R/W
FBD0-7
0-7
Feedback Divider LSBs (bits 0-7)
03h
FdBk Div 1*
R/W
FBD8-11
0-3
Feedback Divider MSBs (bits 8-11) Divider setting = 12 bit word + 8 Minimum 12 = 000000000100 Maximum 4103 =111111111111 Reserved
Reserved
4-7
04h
Reserved
Reserved
0-7
0
Reserved
05h
Schmitttrigger*
R/W
Schmitt control Metal_Rev
0 1-7
1 0
Schmitt-trigger control 0=Schmitt-trigger, 1=No Schmitt-trigger Metal Mask Revision Number
06h
Output Enables
R/W
Reserved OE Reserved
0 1 2-7
0 0 0
Reserved Output Enable for CLK, HSYNC_out, VSYNC_out 0=High Impedance (disabled), 1=Enabled Reserved
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Revision 110905
In te grated Circuit Systems, 525 Race Stre e t, Sa n Jose , CA 95 126, tel (408 ) 29 7-120 1 w w w. i c s t . c o m
ICS1527 Data Sheet
Word Address Reset Value
Section 3 Register map summary
Name
Access
Bit Name
Bit #
Description
07h
Reserved
Reserved Reserved
0-6 7 0
Reserved Part requires a 0 for correct operation
08h
Reset
Write
Reserved
0-7
0
Writing 5Ah resets part and commits values written to word addresses 01h-03h and 05h
09-0Fh
Reserved
Read
Reserved
0-7
Reserved
10h
Chip Ver
Read
Reserved
0-7
Reserved
11h
Chip Rev
Read
Chip Rev
0-7
01
Reserved
12h
Rd_Reg
Read
Reserved PLL_Lock Reserved
0 1 2-7
N/A N/A 0
Reserved PLL Lock Status 0=Unlocked, 1=Locked Reserved
*. Written values to these registers do not take effect immediately, but require a commit via register 08h
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Revision 110905
In te grated Circuit Systems, 525 Race Stre e t, Sa n Jose , CA 95 126, tel (408 ) 29 7-120 1 w w w. i c s t . c o m
ICS1527 Data Sheet
Section 4 Programming
Section 4
Programming
4.1 Industry-Standard I2C Serial Bus: Data Format
ICS1527 Data Format for I2C 2-Wire Serial Bus
D ata (0) A C K A C K ... D ata (n) AS CT KO P
Figure 4-1
S ingle/m ultiple register w rite (page w rite) D evice address W ord address S010011B0A T C A K R T S ingle/m ultiple register read D evice address S010011B0A T C A K R T S equ ential single/m u ltiple register read D evice address S010011B1A T C A K R T M aster drives line D ata (0) W ord address
D evice address AS010011B1A CT C KA K R T
D ata (0) A C K ...
D ata (n) N O A C K S T O P
D ata (n) A C K ... N O A C K S T O P
S lave drives line
Notes: The ICS1527 uses 16 byte pages (00h-0Fh is the first page, 10h-1Fh is the second page). Writing or reading beyond the end of page yields undefined results. The ICS1527 has a device address of 010011B, where B is the state of the I2CADR pin.
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Revision 110905
In te grated Circuit Systems, 525 Race Stre e t, Sa n Jose , CA 95 126, tel (408 ) 29 7-120 1 w w w. i c s t . c o m
ICS1527 Data Sheet
Section 5 AC/DC Operating Conditions
Section 5
AC/DC Operating Conditions
5.1 Absolute Maximum Ratings
Table 5-1 lists absolute maximum ratings for the ICS1527. Stresses above these ratings can cause permanent damage to the device. These ratings, which are standard values for ICS commercially rated parts, are stress ratings only. Functional operation of the ICS1527 at these or any other conditions above those indicated in the operational sections of the specifications is not implied. Exposure to absolute maximum rating conditions for extended periods can affect product reliability. Electrical parameters are guaranteed only over the recommended operating temperature range.
Table 5-1 ICS1527 Absolute Maximum Ratings
Item
VDD, VDDA, VDDQ (measured to VSS)* Digital Inputs Analog Inputs Analog Outputs Digital Outputs Storage Temperature Junction Temperature Soldering Temperature ESD Susceptibility*
Rating
4.3 V VSS -0.3 V to 5.5 V VSS -0.3 V to 6.0 V VSSA -0.3 V to VDDA +0.3 V VSSQ -0.3 V to VDDQ +0.3 V -65C to +150C 125C 260C > 2 KV**
*. Measured with respect to VSS. During normal operations, the VDD supply voltage for the ICS1527 must remain within the recommended operating conditions. **. Electrostatic-sensitive devices. Do not open or handle except in a static-free workstation.
Table 5-2 Environmental Conditions
Parameter
Ambient Operating Temperature Power Supply Voltage
Table 5-3 DC Characteristics
Min.
0 +3.0
Typ.
- +3.3
Max.
+70 +3.6
Units
C V
Parameter
Digital Supply Current Output Driver Supply Current Analog Supply Current Power consumption Power-On-Reset (POR) Threshold
Symbol
IDDD IDDQ IDDA
Conditions
VDDD = 3.6 V VDDD = 3.6 V No drivers enabled VDDA = 3.6 V VSS
Min.
-
Max.
25 6 5 300 1.8
UNITS
mA mA mA mW V
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Revision 110905
In te grated Circuit Systems, 525 Race Stre e t, Sa n Jose , CA 95 126, tel (408 ) 29 7-120 1 w w w. i c s t . c o m
ICS1527 Data Sheet Table 5-4 AC Characteristics
Section 5 AC/DC Operating Conditions
Parameter
Symbol
fVCO K fEXTFB VIH VIL fHSYNC fVSYNC VIH VIL
Min.
50
Typical
Max.
400
Units
MHz MHz/V
Notes
General
VCO Frequency VCO Gain 165 8 1.0 8 30 1.7 VSS - 0.3 0.2 VIH VIL 2 VSS - 0.3 2 VSS - 0.3 10,000 120 5.5 1.1 0.8 5.5 0.8 VDD+0.3 0.8 0.4 6.0 10,000 2.0
AC Inputs
EXTFB Input Frequency EXTFB Input High Voltage EXTFB Input Low Voltage HSYNC Input Frequency VSYNC Input Frequency Input High Voltage Input Low Voltage Input Hysteresis kHz V V kHz Hz V V V V V V V V V IOUT = 3 mA Determined by external Rset resistor VDDD = 3.3 V VDDD = 3.3 V 2 30 kHz input to 50 MHz output HSYNC in to CLK out IOUT = 4 mA IOUT = -4 mA 1 Schmitt trigger active
Analog Input (HSYNC/VSYNC)
SDA, SCL Digital Inputs
Input High Voltage Input Low Voltage I2CADDR Digital Input High Voltage Input Low Voltage
Input
VIH VIL VOL VOH
SDA Digital Output
SDA Output Low Voltage SDA Output High Voltage
LVCMOS Outputs (CLK, HSYNC_out, VSYNC_out, LOCK)
Output Frequency, ICS1527-110GLF Output Frequency, ICS1527-60GLF Duty Cycle Jitter, STJ, RMS Jitter, STJ, pk-pk Jitter, Input-Output Output Low Voltage Output High Voltage HSYNC to HSYNC_out propagation delay (without Schmitt-trigger) Fs Fs SDC STJ STJ IOJ VOL VOH 2.4 2 9 2.5 2.5 45 50 0.027 0.200 2.500 0.4 110 60 55 MHz MHz % ns ns ns V V ns
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Revision 110905
In te grated Circuit Systems, 525 Race Stre e t, Sa n Jose , CA 95 126, tel (408 ) 29 7-120 1 w w w. i c s t . c o m
ICS1527 Data Sheet
Section 5 AC/DC Operating Conditions
Parameter
HSYNC to HSYNC_out propagation delay (with Schmitt-trigger) CLK to HSYNC_out/ VSYNC_out skew Clock and HSYNC_out/VSYNC_out Transition Time - Rise Clock and HSYNC_out/VSYNC_out Transition Time - Fall LOCK Transition Time - Rise LOCK Transition Time - Fall
Symbol
Min.
Typical
6
Max.
10
Units
ns
Notes
1
1.0 TCR 1.0 1.5
ns ns 2
TCF
1.0
1.5
ns
2
TLR TLF
3.0 2.0
ns ns
2 2
Note 1--Measured between chosen edge of HSYNC (00h:2) and rising edge of output Note 2--Measured at 110 MHz, 3.3 VDC, 25oC, 15 pF, unterminated
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Revision 110905
In te grated Circuit Systems, 525 Race Stre e t, Sa n Jose , CA 95 126, tel (408 ) 29 7-120 1 w w w. i c s t . c o m
ICS1527 Data Sheet
Section 6 Package Outline and Package Dimensions
Section 6
Package Outline and Package Dimensions
16-pin TSSOP 4.40 mm body, 0.65 mm pitch Package dimensions are kept current with JEDEC Publication No. 95
16
Millimeters Symbol Min Max
Inches Min Max
E1 INDEX AREA
E
12 D
A A1 A2 b C D E E1 e L aaa
-1.20 0.05 0.15 0.80 1.05 0.19 0.30 0.09 0.20 4.90 5.1 6.40 BASIC 4.30 4.50 0.65 Basic 0.45 0.75 0 8 -0.10
-0.047 0.002 0.006 0.032 0.041 0.007 0.012 0.0035 0.008 0.193 0.201 0.252 BASIC 0.169 0.177 0.0256 Basic 0.018 0.030 0 8 -0.004
A2 A1
A c
-Ce
b SEATING PLANE
aaa C
L
Section 7
Ordering Information
Marking
1527G2LF 1527G2LF 1527G1LF 1527G1LF
Part / Order Number
ICS1527G-60LF ICS1527G-60LFT ICS1527G-110LF ICS1527G-110LFT
Shipping packaging
Tubes Tape & Reel Tubes Tape & Reel
Package
16-pin TSSOP 16-pin TSSOP 16-pin TSSOP 16-pin TSSOP
Temperature
0 to +70 C 0 to +70 C 0 to +70 C 0 to +70 C
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. MDS1527 G 11 Revision 110905
In te grated Circuit Systems, 525 Race Stre e t, Sa n Jose , CA 95 126, tel (408 ) 29 7-120 1 w w w. i c s t . c o m

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