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5P49EE802NDGI8

型号:

5P49EE802NDGI8

描述:

VERSACLOCK ?低功耗时钟发生器[ VERSACLOCK? LOW POWER CLOCK GENERATOR ]

品牌:

IDT[ INTEGRATED DEVICE TECHNOLOGY ]

页数:

25 页

PDF大小:

443 K

下载PDF手册
PRELIMINARY DATASHEET  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
IDT5P49EE802  
Description  
Features  
The IDT5P49EE802 is a programmable clock generator  
intended for low power, battery operated consumer  
applications. There are four internal PLLs, each individually  
programmable, allowing for up to eight differrent output  
frequencies. The frequencies are generated from a single  
reference clock. The reference clock can come from either  
a TCXO or fundamental mode crystal. An additional 32kHz  
crystal oscillator is available to provide a real time clock or  
non-critical performance MHz processor clock.  
Four internal PLLs  
Internal non-volatile EEPROM  
2
Internal I C EEPROM master interface  
2
FAST (400kHz) mode I C serial interfaces  
Input Frequencies  
– TCXO: 10 MHz to 40 MHz  
– Crystal: 8 MHz to 30 MHz  
– RTC Crystal: 32.768 kHz  
The IDT5P49EE802 can be programmed through the use  
of the I C interfaces. The programming interface enables  
Output Frequency Ranges: kHz to 120 MHz  
2
Each PLL has an 8-bit reference divider and a 11-bit  
feedback-divider  
the device to be programmed when it is in normal operation  
or what is commonly known as in system programmable.  
An internal EEPROM allows the user to save and restore  
the configuration of the device without having to reprogram  
it on power-up.  
8-bit output-divider blocks  
One of the PLLs support Spread Spectrum generation  
capable of configuration to pixel rate, with adjustable  
modulation rate and amplitude to support video clock  
with no visible artifacts  
Each of the four PLLs has an 8-bit reference divider and a  
11-bit feedback divider. This allows the user to generate  
four unique non-integer-related frequencies. The PLL loop  
bandwidth is programmable to allow the user to tailor the  
PLL response to the application. For instance, the user can  
tune the PLL parameters to minimize jitter generation or to  
maximize jitter attenuation. Spread spectrum generation is  
supported on one of the PLLs.  
I/O Standards:  
– Outputs - 1.8V/2.5V/3.3 V LVTTL/ LVCMOS  
3 independent adjustable VDDO groups.  
Programmable Slew Rate Control  
Programmable Loop Bandwidth Settings  
Programmable output inversion to reduce bimodal jitter  
Individual output enable/disable  
Spread spectrum generation is supported on one of the  
PLLs. The device is specifically designed to work with  
display applications to ensure that the spread profile  
remains consistent for each HSYNC in order to reduce  
ROW noise. It also may operate in standard spread  
sepctrum mode.  
Power-down/Sleep mode  
– 10A max in power down mode  
– 32kHz clock output active sleep mode  
– 100A max in sleep mode  
There are total six 8-bit output dividers. Outputs are  
LVCMOS. The outputs are connected to the PLLs via the  
switch matrix. The switch matrix allows the user to route the  
PLL outputs to any output bank. This feature can be used to  
simplify and optimize the board layout. In addition, each  
output's slew rate and enable/disable function can be  
programmed.  
1.8V VDD Core Voltage  
Available in 28 pin 4x4mm QFN packages  
-40 to +85 C Industrial Temp operation  
Target Applications  
Smart Mobile Handset  
Personal Navigation Device (PND)  
Camcorder  
DSC  
Portable Game Console  
Personal Media Player  
®
IDT™ VERSACLOCK LOW POWER CLOCK GENERATOR  
1
IDT5P49EE802 REV C 061810  
IDT5P49EE802  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
EEPROM CLOCK GENERATOR  
Functional Block Diagram  
VDD  
VDDO1  
VDDO 2  
VDDO 3  
S
R
C
0
/DIV0  
OUT0  
XIN/REF  
S
R
C
1
PLLA  
XOUT  
/DIV1  
/DIV2  
OUT1  
OUT2  
REFSEL0  
REFSEL1  
S
R
C
2
PLLB(SS)  
SDA  
REFSEL2  
Control  
S
R
C
3
Logic  
/DIV3  
/DIV4  
OUT3  
OUT4  
SCL  
PLLC  
SEL[1:0]  
S
R
C
4
REFSEL3  
PLLD  
S
R
C
5
/DIV5  
/DIV6  
OUT5  
32kXIN  
S
R
C
6
OUT6A  
OUT6B  
32kXOUT  
GND  
®
IDT™ VERSACLOCK LOW POWER CLOCK GENERATOR  
2
IDT5P49EE802 REV C 061810  
IDT5P49EE802  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
EEPROM CLOCK GENERATOR  
Pin Assignment  
28 27 26 25 24 23 22  
OUT5  
OUT4  
OUT3  
SEL0  
1
2
3
4
5
6
7
21  
OUT6B  
SCLK  
20  
19  
VDDO3  
OUT0  
VDD  
18  
17  
VDDO1  
X1_32  
X2_32  
16  
15  
VDD  
OUT1  
8
9
10 11 12 13 14  
28 pin VFQFPN  
(Top View)  
Pin Descriptions  
Pin Name  
Pin #  
I/O Pin Type  
Pin Description  
OUT5  
1
2
3
O
O
O
I
Adjustable Configurable clock output 5. Single-ended output voltage levels  
are register controlled by either VDDO1, VDDO2 or VDDO3.  
OUT4  
OUT3  
Adjustable Configurable clock output 4. Single-ended output voltage levels  
are register controlled by either VDDO1, VDDO2 or VDDO3.  
Adjustable Configurable clock output 3. Single-ended output voltage levels  
are register controlled by either VDDO1, VDDO2 or VDDO3.  
SEL0  
4
5
LVTTL  
Power  
Configuration select pin. Weak internal pull down resistor.  
Device power supply. Connect to 1.8 to 3.3V. Using register  
settings, select output voltage levels for OUT0-OUT6. VDDO1  
must be greater than or equal to both VDDO2 and VDDO3.  
VDDO1  
X132k  
X232k  
VDDx  
6
7
8
I
I
LVTTL  
LVTTL  
Power  
32kHz CRYSTAL_IN -- Reference crystal input  
32kHz CRYSTAL_OUT -- Reference crystal feedback.  
Crystal oscillator power supply. Connect to 1.8V. Use filtered  
analog power supply if available.  
GND  
GND  
9
Power  
Power  
Power  
Power  
Connect to Ground.  
10  
11  
12  
Connect to Ground.  
Device power supply. Connect to 1.8V.  
VDD  
Device power supply. Connect to 1.8 to 3.3V. Using register  
settings, select output voltage levels for OUT0-OUT6.  
VDDO2  
®
IDT™ VERSACLOCK LOW POWER CLOCK GENERATOR  
3
IDT5P49EE802 REV C 061810  
IDT5P49EE802  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
EEPROM CLOCK GENERATOR  
Pin Name  
Pin #  
I/O Pin Type  
Pin Description  
OUT2  
13  
O
Adjustable Configurable clock output 2. Single-ended output voltage levels  
are register controlled by either VDDO1, VDDO2 or VDDO3.  
SEL1  
OUT1  
14  
15  
I
LVTTL  
Configuration select pin. Weak internal pull down resistor.  
O
Adjustable Configurable clock output 1. Single-ended output voltage levels  
are register controlled by either VDDO1, VDDO2 or VDDO3.  
16  
17  
18  
Power  
Power  
Device power supply. Connect to 1.8V.  
Device power supply. Connect to 1.8V.  
VDD  
VDD  
OUT0  
O
Adjustable Configurable clock output 0. Single-ended output voltage levels  
are register controlled by either VDDO1, VDDO2 or VDDO3.  
19  
Power  
Device power supply. Connect to 1.8 to 3.3V. Using register  
settings, select output voltage levels for OUT0-OUT6.  
VDDO3  
SCLK  
20  
21  
I
LVTTL  
I2C clock.  
OUT6B  
O
Adjustable Configurable clock output 6B. Output voltage level is controlled  
by VDDO1.  
OUT6A  
22  
O
Adjustable Configurable clock output 6B. Output voltage level is controlled  
by VDDO1.  
SDA  
VDD  
23  
24  
25  
26  
27  
I/O  
LVTTL  
Power  
Power  
Power  
LVTTL  
Bidirectional I2C data.  
Device power supply. Connect to 1.8V.  
Device power supply. Connect to 1.8V.  
Connect to Ground.  
VDD  
GND  
XIN/ REF  
I
MHz CRYSTAL_IN -- Reference crystal input or external  
reference clock input.  
XOUT  
EP  
28  
--  
O
LVTTL  
MHz CRYSTAL_OUT -- Reference crystal feedback.  
Exposed thermal pad should be externally connected to ground.  
Note 1: Outputs are user programmable to drive single-ended 1.8V/2.5V/3.3V LVTTL. Alway completely power up VDD and  
VDDx prior to applying VDDO power. Always power up device into “Active” configuration modes, prior to asserting Power  
Down/Sleep mode SEL=00.  
Note 2: Default configuration CLK4=Buffered MHz Reference output and CLK2=Buffered 32.768kHz output. All other  
outputs are off.  
®
IDT™ VERSACLOCK LOW POWER CLOCK GENERATOR  
4
IDT5P49EE802 REV C 061810  
IDT5P49EE802  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
EEPROM CLOCK GENERATOR  
PLL Features and Descriptions  
8-bit  
D
VCO  
1-bit 11-bit  
A
M
PLL Block Diagram  
Ref-Divider  
(D) Values  
Feedback  
Pre-Divider  
(XDIV)  
Feedback  
Programmable  
Spread Spectrum  
(M) Values Loop Bandwidth Generation Capability  
Values  
1
PLLA  
PLLB  
PLLC  
1 - 255  
1 - 255  
1 - 255  
1 or 4  
6 - 2047  
6 - 2047  
6 - 2047  
Yes  
Yes  
Yes  
No  
Yes  
No  
4
1 or 8 bit  
2
divide  
1
PLLD  
1 - 255  
1 or 4  
6 - 2047  
Yes  
No  
1.XDIVA or XDIVD=0, A=1. XDIVA or XDIVD=1, A=4.  
2.XDIVC =0, A=1. XDIVC=1 turns on 8 bit predivide multiplier, A=FBC2[7:0]. Total feedback divide equals  
FBC[10:0] *FBC2[7:0].  
Crystal Input (XIN/REF)  
Reference Pre-Divider, Reference Divider,  
Feedback-Divider and Post-Divider  
The crystal oscillators should be fundamental mode quartz  
crystals; overtone crystals are not suitable. Crystal  
frequency should be specified for parallel resonance with  
50maximum equivalent series resonance.  
Each PLL incorporates an 8-bit reference-scaler and a  
11-bit feedback divider which allows the user to generate  
four unique non-integer-related frequencies. PLLA and  
PLLD each have a feedback pre-divider that provides  
additional multiplication for kHz reference clock  
applications. Each output divider supports 8-bit post-divider.  
The following equation governs how the output frequency is  
calculated.  
Crystal Load Capacitors  
The device crystal connections should include pads for  
small capacitors from X1 to ground and from X2 to ground.  
These capacitors are used to adjust the stray capacitance of  
the board to match the nominally required crystal load  
capacitance. Because load capacitance can only be  
increased in this trimming process, it is important to keep  
stray capacitance to a minimum by using very short PCB  
traces (and no vias) between the crystal and device. Crystal  
capacitors must be connected from each of the pins X1 and  
X2 to ground.  
A*M  
D
F *  
=
FOUT  
( )  
IN  
(Eq. 2)  
ODIV  
Where F is the reference frequency, A is the feedback  
IN  
pre-divider value, M is the feedback-divider value, D is the  
reference divider value, ODIV is the total post-divider value,  
and F  
is the resulting output frequency. Programming  
OUT  
The crystal cpacitors are internal to the device and have an  
effective value of 8pF.  
any of the dividers may cause glitches on the outputs.  
®
IDT™ VERSACLOCK LOW POWER CLOCK GENERATOR  
5
IDT5P49EE802 REV C 061810  
IDT5P49EE802  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
EEPROM CLOCK GENERATOR  
Modulation frequency:  
SPREAD SPECTRUM GENERATION  
(PLLB)  
F
= F  
/ NC (Eq. 11)  
MOD  
MID  
PLLB has spread spectrum generation capability, which  
users have the option of turning on and off. Spread  
spectrum profile, frequency, and spread are fully  
programmable (within limits). The programmable spread  
spectrum generation parameters are NC[10:0], MOD[12:0],  
and NSS[10:0] bits. To enable spread spectrum, set  
SSENB_B=0.  
Video Example  
F
= 27 MHz, F  
= 27 MHz, 640 pixels per line, center  
OUT  
REF  
spread of 1%. Using F  
spread spectrum register settings.  
=432MHz, find the necessary  
VCO  
F
= F /8  
MID  
VCO  
NC = 640 (integer number of spread periods/screen)  
MOD = (25MHz * 640)/(2 * 54MHz) = 160  
The spread spectrum circuitry was specifically developed to  
accommodate video display applications. The spread  
modulation frequency can be defined to exactly equal the  
horizontal line frequency (HSYNC)  
NSS = (640/2)+(640/8)*(27.27MHz-26.73MHz)/27MHz =  
321.  
NC[10:0]  
These bits are used to determine the number of pulses per  
spread spectrum cycle. For video applications, NC is the  
number of pixels on the horizontal display row (or integer  
multiple of displayed pixels in a row). By matching the  
spread period to the screen, no tearing or “shimmer” will be  
apparent.  
F
= 27MHz/640 = 11.8kHz.  
MOD  
Non-Video Example  
F
= 25MHz, F  
= 27 MHz, 31.25kHz modulation rate,  
OUT  
REF  
center spread of 1%. Find the necessary spread spectrum  
register settings.  
NC must be an even number to insure that the upward  
spread transition has the same number of steps as the  
downward spread transition.  
F
F
= F  
/ 8  
VCO  
MID  
= 31.25kHz = 50.625MHz/NC.  
MOD  
For non-video applications, this can also be seen as the  
number of clock cycles for a complete spread spectrum  
period.  
NC = 1620  
MOD = (25MHz * 1620)/(2 * 50.625MHz) = 400  
MOD[12:0]  
NSS = (1620/2)+(1620/8)*(27.27MHz-26.73MHz)/27MHz =  
814.  
These bits relate the VCO frequency to the target average  
spread output frequency (F ).  
MID  
F
F
F
= (F  
) / 8  
VCO  
MID  
MAX  
MIN  
= F  
+ (SS% * F  
MID)  
MID  
MID  
= F  
- (SS% * F  
MID)  
MOD = (F  
* NC) / (2 * F  
)
REF  
MID  
NSS[10:0]  
These bits control the amplitude of the spread modulation.  
NSS = (NC / 2) + (NC / 8) * (F  
- F ) / F  
MIN MID  
MAX  
®
IDT™ VERSACLOCK LOW POWER CLOCK GENERATOR  
6
IDT5P49EE802 REV C 061810  
IDT5P49EE802  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
EEPROM CLOCK GENERATOR  
VSYNC, HSYNC, DOT_CLK – Modulation Rate Relationship  
VSYNC  
HSYNC  
Integer multiple of HSYNC periods  
DOT_CLK  
Modulation  
Rate  
X/2  
X
X/2  
X
X = Number of cycles of DOT_CLK per HSYNC period.  
X/2 = Number of cycles of DOT_CLK that the modulation edge rises/falls.  
Zero capacitor (Cz) = 280pF  
Pole capacitor (Cp) = 30pF  
LOOP FILTER  
The loop filter for each PLL can be programmed to optimize  
the jitter performance. The low-pass frequency response of  
the PLL is the mechanism that dictates the jitter transfer  
characteristics. The loop bandwidth can be extracted from  
the jitter transfer. A narrow loop bandwidth is good for jitter  
attenuation while a wide loop bandwidth is best for low jitter  
generation. The specific loop filter components that can be  
programmed are the resistor via the RZ[4:0] bits, zero  
capacitor via the CZ[2:0] bits, pole capacitor via the CP[1:0]  
bits, and the charge pump current via the IP#[2:0] bits.  
Charge pump (Ip) = IP#[2:0] uA  
VCO gain (KVCO) = 350MHz/V * 2  
The following equations govern how the loop filter is set:  
®
IDT™ VERSACLOCK LOW POWER CLOCK GENERATOR  
7
IDT5P49EE802 REV C 061810  
IDT5P49EE802  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
EEPROM CLOCK GENERATOR  
Example  
Fc = 150KHz is the desired loop bandwidth. The total A*M  
value is 160. The (damping factor) target should be 0.7,  
meaning the loop is critically damped. Given Fc and A*M, an  
optimal loop filter setting needs to be solved for that will  
meet both the PLL loop bandwidth and maintain loop  
stability.  
Choose a mid-range charge pump from register table  
Icp= 11.9uA.  
K* KVCO = 300MHz/V * 40uA = 12000A/Vs  
5
-1  
c = 2* Fc = 9.42x10 s  
PLL Loop Bandwidth:  
Charge pump gain (K) = Ip / 2  
p = (Cz + Cp)/(Rz * Cz * Cp) = z (1 + Cz / Cp)  
VCO gain (KVCO) = 950MHz/V * 2  
Solving for Rz, the best possible value Rz=30kOhms  
(RZ[1:0]=10) gives  
M = Total multiplier value (See the PRE-SCALERS,  
FEEDBACK-DIVIDERS, POST-DIVIDERS section for more  
detail)  
= 1.2  
Solving back for the PLL loop bandwidth, Fc=149kHz.  
The phase margin must be checked for loop stability.  
c = (Rz * K* KVCO * Cz)/(M * (Cz + Cp))  
Fc = c / 2  
5
-1  
5 -1  
m = (360 / 2) * [tan-1 (9.42x10 s / 1.19x10 s )  
-1  
5
-1  
6 -1  
Note, the phase/frequency detector frequency (FPFD) is  
typically seven times the PLL closed-loop bandwidth (Fc)  
but too high of a ratio will reduce your phase margin thus  
compromising loop stability.  
- tan (9.42x10 s / 1.23x10 s )] = 45°  
The phase margin would be acceptable with a fairly stable  
loop.  
To determine if the loop is stable, the phase margin (m)  
would need to be calculated as follows.  
Phase Margin:  
z = 1 / (Rz * Cz)  
p = (Cz + Cp)/(Rz * Cz * Cp)  
-1  
-1  
m = (360 / 2) * [tan (c/ z) - tan (c/ p)]  
To ensure stability in the loop, the phase margin is  
recommended to be > 60° but too high will result in the lock  
time being excessively long. Certain loop filter parameters  
would need to be compromised to not only meet a required  
loop bandwidth but to also maintain loop stability.  
®
IDT™ VERSACLOCK LOW POWER CLOCK GENERATOR  
8
IDT5P49EE802 REV C 061810  
IDT5P49EE802  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
EEPROM CLOCK GENERATOR  
SEL[1:0] Function  
The IDT5P49EE802 can support up to three unique  
configurations. Users may pre-programmed all these  
configurations, and select the configurations using SEL[1:0]  
pins. Alternatively, users may use I2C interface to configure  
these registers on- the-fly.  
Always power up with SEL1=1 and/or SEL0=1. Do not  
power up device into power down mode SEL=00.  
Power Down/Sleep Mode is selected by the No_PD bit.  
No_PD=0 enables Power Down mode with no outputs.  
No_PD=1 enables sleep mode with 32kHz output on OUT4.  
SEL1  
SEL0  
Configuration Selections  
Power Down/Sleep Mode  
0
0
1
1
0
1
0
1
Select CONFIG0  
Select CONFIG1  
Select CONFIG2  
a single 3.3V power supply. Each output can support 1.8V/  
2.5V or 3.3V LVCMOS. VDDO1 must have the highest  
voltage of any pin on the device. VDDO2 and VDDO3 may  
have any value between 1.8V and VDDO1.  
Configuration OUTx IO Standard  
Users can configure the individual output IO standard from  
Programming the Device  
2
I C may be used to program the IDT5P49EE802.  
The frame formats are shown in the following illustration.  
– Device (slave) address = 7'b1101010  
I2C Programming  
The IDT5P49EE802 is programmed through an I2C-Bus  
serial interface, and is an I2C slave device. The read and  
write transfer formats are supported. The first byte of data  
after a write frame to the correct slave address is interpreted  
as the register address; this address auto-increments after  
each byte written or read.  
Framing  
2
First Byte Transmitted on I C Bus  
®
IDT™ VERSACLOCK LOW POWER CLOCK GENERATOR  
9
IDT5P49EE802 REV C 061810  
IDT5P49EE802  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
EEPROM CLOCK GENERATOR  
External I2C Interface Condition  
after the STOP condition is issued by the Master, during  
which time the IDT5P49EE802 will not generate  
EEPROM Interface  
The IDT5P49EE802 can store its configuration in an internal  
EEPROM. The contents of the device's internal  
programming registers can be saved to the EEPROM by  
issuing a save instruction (ProgSave) and can be loaded  
back to the internal programming registers by issuing a  
restore instruction (ProgRestore).  
Acknowledge bits. The IDT5P49EE802 will acknowledge  
the instructions after it has completed execution of them.  
2
During that time, the I C bus should be interpreted as busy  
by all other users of the bus.  
On power-up of the IDT5P49EE802, an automatic restore is  
performed to load the EEPROM contents into the internal  
programming registers. The IDT5P49EE802 will be ready to  
accept a programming instruction once it acknowledges its  
2
To initiate a save or restore using I C, only two bytes are  
transferred. The Device Address is issued with the  
read/write bit set to “0”, followed by the appropriate  
command code. The save or restore instruction executes  
2
7-bit I C address.  
Progwrite  
Progwrite Command Frame  
Writes can continue as long as a Stop condition is not sent and each byte will increment the register address.  
®
IDT™ VERSACLOCK LOW POWER CLOCK GENERATOR  
10  
IDT5P49EE802 REV C 061810  
IDT5P49EE802  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
EEPROM CLOCK GENERATOR  
Progread  
Note: If the expected read command is not from the next higher register to the previous read or write command, then set a  
known “read” register address prior to a read operation by issuing the following command:  
Prior to Progread Command Set Register Address  
The user can ignore the STOP condition above and use a repeated START condition instead, straight after the slave  
acknowledgement bit (i.e., followed by the Progread command):  
Progread Command Frame  
Progsave  
Note:  
PROGWRITE is for writing to the IDT5P49EE802 registers.  
PROGREAD is for reading the IDT5P49EE802 registers.  
PROGSAVE is for saving all the contents of the  
IDT5P49EE802 registers to the EEPROM.  
PROGRESTORE is for loading the entire EEPROM  
contents to the IDT5P49EE802 registers.  
Progrestore  
During PROGRESTORE, outputs will be turned off to  
ensure that no improper voltage levels are experienced  
before initialization.  
®
IDT™ VERSACLOCK LOW POWER CLOCK GENERATOR  
11  
IDT5P49EE802 REV C 061810  
IDT5P49EE802  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
EEPROM CLOCK GENERATOR  
I2C Bus DC Characteristics  
Symbol  
Parameter  
Conditions  
Min  
Typ  
Max  
5.5  
Unit  
V
V
Input HIGH Level  
0.7xVDD  
IH  
V
Input LOW Level  
0.3xVDD  
V
IL  
V
Hysteresis of Inputs  
Input Leakage Current  
Output LOW Voltage  
0.05xVDD  
V
HYS  
I
V
= 0V  
1.0  
0.4  
µA  
V
IN  
DD  
V
I
= 3 mA  
OL  
OL  
I2C Bus AC Characteristics for Standard Mode  
Symbol  
Parameter  
Serial Clock Frequency (SCL)  
Bus free time between STOP and START  
Setup Time, START  
Min  
0
Typ  
Max  
Unit  
kHz  
µs  
F
100  
SCLK  
t
4.7  
4.7  
4
BUF  
t
µs  
SU:START  
HD:START  
t
Hold Time, START  
µs  
t
Setup Time, data input (SDA)  
250  
0
ns  
SU:DATA  
1
t
Hold Time, data input (SDA)  
µs  
HD:DATA  
t
Output data valid from clock  
Capacitive Load for Each Bus Line  
Rise Time, data and clock (SDA, SCLK)  
Fall Time, data and clock (SDA, SCLK)  
HIGH Time, clock (SCLK)  
3.45  
400  
µs  
OVD  
C
pF  
ns  
B
t
1000  
300  
R
t
ns  
F
t
4
4.7  
4
µs  
HIGH  
t
LOW Time, clock (SCLK)  
µs  
LOW  
t
Setup Time, STOP  
µs  
SU:STOP  
1) No activity is allowed on I2C lines until VDD>1.62V.  
2) A device must internally provide a hold time of at least 300 ns for the SDA signal (referred to the VIHMIN of the SCLK signal)  
to bridge the undefined region of the falling edge of SCLK.  
®
IDT™ VERSACLOCK LOW POWER CLOCK GENERATOR  
12  
IDT5P49EE802 REV C 061810  
IDT5P49EE802  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
EEPROM CLOCK GENERATOR  
I2C Bus AC Characteristics for Fast Mode  
Symbol  
Parameter  
Serial Clock Frequency (SCL)  
Bus free time between STOP and START  
Setup Time, START  
Min  
0
Typ  
Max  
Unit  
kHz  
µs  
F
400  
SCLK  
t
1.3  
0.6  
0.6  
100  
0
BUF  
t
µs  
SU:START  
HD:START  
t
Hold Time, START  
µs  
t
Setup Time, data input (SDA)  
ns  
SU:DATA  
HD:DATA  
1
t
Hold Time, data input (SDA)  
µs  
t
Output data valid from clock  
Capacitive Load for Each Bus Line  
Rise Time, data and clock (SDA, SCL)  
Fall Time, data and clock (SDA, SCL)  
HIGH Time, clock (SCL)  
0.9  
400  
300  
300  
µs  
OVD  
C
pF  
ns  
B
t
20 + 0.1xC  
20 + 0.1xC  
0.6  
R
B
t
ns  
F
B
t
µs  
HIGH  
t
LOW Time, clock (SCL)  
1.3  
µs  
LOW  
t
Setup Time, STOP  
0.6  
µs  
SU:STOP  
1) No activity is allowed on I2C lines until VDD>1.62V.  
2) A device must internally provide a hold time of at least 300 ns for the SDA signal (referred to the VIHMIN of the SCLK signal)  
to bridge the undefined region of the falling edge of SCLK.  
®
IDT™ VERSACLOCK LOW POWER CLOCK GENERATOR  
13  
IDT5P49EE802 REV C 061810  
IDT5P49EE802  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
EEPROM CLOCK GENERATOR  
Absolute Maximum Ratings  
Stresses above the ratings listed below can cause permanent damage to the IDT5P49EE802. These ratings, which are  
standard values for IDT commercially rated parts, are stress ratings only. Functional operation of the device 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.  
Symbol  
Description  
Internal Power Supply Voltage  
Input Voltage  
Max  
Unit  
V
V
-0.5 to +4.6  
-0.5 to +4.6  
DD  
V
V
I
V
Output Voltage (not to exceed 4.6 V)  
Junction Temperature  
-0.5 to V +0.5  
V
O
DD  
T
150  
°C  
°C  
J
T
Storage Temperature  
-65 to +150  
STG  
Recommended Operation Conditions  
Symbol  
Parameter  
Min  
1.62  
-40  
Typ  
Max  
1.98  
+85  
15  
Unit  
V
V
Power supply voltage for core VDD  
Operating temperature, ambient  
1.8  
DD  
T
°C  
A
C
C
Maximum load capacitance (3.3V LVTTL only)  
Maximum load capacitance (1.8V or 2.5V LVTTL only)  
External reference crystal  
pF  
LOAD_OUT  
LOAD_OUT  
8
pF  
F
8
1
30  
MHz  
IN  
External reference clock CLKIN  
40  
t
Power up time for all V s to reach minimum specified  
0.05  
5
ms  
PU  
DD  
voltage (power ramps must be monotonic)  
Capacitance  
Symbol  
Parameter  
Min  
8
Typ  
Max  
Unit  
C
Input Capacitance  
3
pF  
IN  
Crystal Specifications  
XTAL_FREQ Crystal frequency  
30  
MHz  
pF  
pF  
V
XTAL_MIN  
XTAL_MAX  
Minimum crystal load capacitance  
Maximum crystal load capacitance  
Voltage swing (peak-to-peak, nominal)  
TBD  
35.4  
2.3  
XTAL_V  
1.5  
3.2  
PP  
®
IDT™ VERSACLOCK LOW POWER CLOCK GENERATOR  
14  
IDT5P49EE802 REV C 061810  
IDT5P49EE802  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
EEPROM CLOCK GENERATOR  
DC Electrical Characteristics for 3.3 Volt LVTTL 1  
Symbol  
Parameter  
Output HIGH Voltage  
Output LOW Voltage  
Input HIGH Voltage  
Input LOW Voltage  
Test Conditions  
Min  
Typ  
Max  
VDDO  
0.4  
Unit  
V
V
I
I
= 33mA  
2.4  
OH  
OH  
V
= 33mA  
V
OL  
OH  
V
2
V
IH  
V
0.8  
5
V
IL  
OZDD  
I
Output Leakage Current 3-state outputs  
µA  
DC Electrical Characteristics for 2.5Volt LVTTL 1  
Symbol  
Parameter  
Output HIGH Voltage  
Output LOW Voltage  
Test Conditions  
Min  
Typ  
Typ  
Max  
VDDO  
0.4  
Unit  
V
V
I
I
= 25mA  
2.1  
OH  
OH  
V
= 25mA  
V
OL  
OH  
I
Output Leakage Current 3-state outputs  
5
µA  
OZDD  
DC Electrical Characteristics for 1.8Volt LVTTL 1  
Symbol  
Parameter  
Output HIGH Voltage  
Output LOW Voltage  
Test Conditions  
Min  
Max  
VDDO  
0.35*VDDO  
5
Unit  
V
V
I
I
= 18mA  
0.65*VDDO  
OH  
OH  
V
= 18mA  
V
OL  
OH  
I
Output Leakage Current 3-state outputs  
µA  
OZDD  
Power Supply Characteristics for LVTTL Outputs  
Symbol  
Parameter  
Test Conditions  
Typ  
Max  
Unit  
I
Total Power VDD Supply Current  
F
= 25 MHz, C = 7 pF  
TBD  
mA  
TOT  
REFERENCE CLOCK  
L
Note 1: See “Recommended Operating Conditions” table. Alway completely power up VDD and VDDx prior to applying  
VDDO power.  
®
IDT™ VERSACLOCK LOW POWER CLOCK GENERATOR  
15  
IDT5P49EE802 REV C 061810  
IDT5P49EE802  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
EEPROM CLOCK GENERATOR  
AC Timing Electrical Characteristics  
(Spread Spectrum Generation = OFF)  
Symbol  
fIN  
Parameter  
Test Conditions  
Input Frequency Limit (CLKIN)  
Min. Typ. Max. Units  
Input Frequency  
1 1  
40  
120  
110  
100  
475  
20  
MHz  
MHz  
MHz  
MHz  
MHz  
MHz  
%
1 / t1  
Output Frequency  
Single Ended Clock output limit (LVTTL) 3.3V  
Single Ended Clock output limit (LVTTL) 2.5V  
Single Ended Clock output limit (LVTTL) 1.8V  
VCO operating Frequency Range  
PFD operating Frequency Range  
Duty Cycle for Input  
0.001  
fVCO  
fPFD  
t2  
VCO Frequency  
100  
0.50  
40  
PFD Frequency  
Input Duty Cycle  
60  
t3  
Output Duty Cycle  
Slew Rate, SLEWx(bits) = 00  
Measured at VDD/2  
45  
55  
%
t4  
Single-Ended 3.3V LVCMOS Output clock rise  
and fall time, 20% to 80% of VDD  
(Output Load = 7 pF)  
3.5  
2.75  
2
V/ns  
Slew Rate, SLEWx(bits) = 01  
Slew Rate, SLEWx(bits) = 10  
Slew Rate, SLEWx(bits) = 11  
Clock Jitter  
Single-Ended 3.3V LVCMOS Output clock rise  
and fall time, 20% to 80% of VDD  
(Output Load = 7 pF)  
Single-Ended 3.3V LVCMOS Output clock rise  
and fall time, 20% to 80% of VDD  
(Output Load = 7 pF)  
Single-Ended 3.3V LVCMOS Output clock rise  
and fall time, 20% to 80% of VDD  
Output Load = 7 pF)  
1.25  
t5  
Peak-to-peak period jitter, CLK outputs  
measured at VDD/2; fPFD >= 10 MHz  
Single output frequency only.  
100  
200  
ps  
ps  
Peak-to-peak period jitter, CLK outputs  
measured at VDD/2; fPFD >= 10 MHz  
Multiple output frequencies switching.  
t6  
t7  
Output Skew  
Lock Time  
Skew between OUT6 and OUT6B outputs.  
200  
20  
ps  
PLL Lock Time from Power-up (using MHz  
reference clock)2  
5
1
ms  
PLL Lock Time from Power-up using  
32.768kHz reference clock)  
3
5
s
PLL Lock time from shutdown mode  
ms  
1.Input clock (square wave) may be used at 1 MHz.  
2.Time from supply voltage crosses VDD=1.62V to PLLs are locked.  
®
IDT™ VERSACLOCK LOW POWER CLOCK GENERATOR  
16  
IDT5P49EE802 REV C 061810  
IDT5P49EE802  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
EEPROM CLOCK GENERATOR  
Spread Spectrum Generation Specifications  
Symbol  
Parameter  
Description  
Min Typ Max  
Unit  
MHz  
kHz  
1
f
Input Frequency Input Frequency Limit  
Mod Frequency Modulation Frequency  
1
40  
IN  
f
32  
120  
MOD  
f
Spread Value  
Amount of Spread Value (programmable) - Down Spread  
Amount of Spread Value (programmable) - Center Spread  
Programmable  
Programmable  
%f  
OUT  
SPREAD  
Note 1: Practical lower frequency is determined by loop filter settings.  
Test Circuits and Conditions 1  
Test Circuits for DC Outputs  
Other Termination Scheme (Block Diagram)  
Total load capacitance = 7pF  
®
IDT™ VERSACLOCK LOW POWER CLOCK GENERATOR  
17  
IDT5P49EE802 REV C 061810  
IDT5P49EE802  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
EEPROM CLOCK GENERATOR  
Programming Registers Table  
Default  
Bit #  
Register  
Addr  
Description  
0
Hex  
Value  
00  
7
6
5
4
3
2
1
0x00  
ONXTALB  
CSX2[1:0]  
CSX1[1:0]  
XTAL32ONB  
Reserved  
ONXTALB - MHz Crystal active low  
CSX2 [1:0]- internal 32kHz crystal  
cap2  
00 - 18pF; 10 - 30pF  
01 - 24pF; 11 - 36pF  
CSX1 [1:0] - Internal 32kHz crystal  
cap1  
00 - 0pF; 10 - 6pF  
01 - 3pF; 11 - 9pF  
XTAL32ONB - 32k crystal active low  
0x01  
0x02  
0x03  
0x04  
0x05  
0x06  
0x07  
0x08  
0x09  
00  
00  
00  
00  
00  
00  
00  
00  
00  
INV[0]  
SLEW0[0:1]  
No_PD  
PS0[2:1]  
Reserved  
No_PD - Enables/Disables 32kHz  
clock output on Config 00.  
No_PD=0 - 32kHz is off.  
No_PD=1 - 32kHz remains active.  
32kHz output must be on OUT4  
INV[#] - Invert output#  
SLEW#[0:1] - output# slew setting  
0 0 - 5.1V/ns  
0 1 - 4.4V/ns  
1 0 - 2.8V/ns  
1 1 - 1.8V/ns  
PS#[2:1] -Power Select  
00 - Reserved  
Reserved  
Reserved  
INV[1]  
INV[2]  
SLEW1[0:1]  
SLEW2[0:1]  
Reserved  
Reserved  
PS12:1]  
PS2[2:1]  
Reserved  
Reserved  
INV[3]  
INV[4]  
INV[5]  
INV[6B]  
SLEW3[0:1]  
SLEW4[0:1]  
SLEW5[0:1]  
Reserved  
Reserved  
Reserved  
PS3[2:1]  
PS42:1]  
PS5[2:1]  
Reserved  
Reserved  
Reserved  
INV[6A]  
SLEW6[0:1]  
Reserved  
01 - CLK# connects to VDDO1  
10 - CLK# connects to VDDO2  
11 - CLK# connects to VDDO3  
0x0A  
0x0B  
0x0C  
0x0D  
0x0E  
00  
00  
00  
00  
00  
Reserved  
Reserved  
Reserved  
Reserved  
REFA[7:0]  
Configuration0  
REFA[7:0] - Reference Divide PLLA  
0x0F  
0x10  
0x11  
00  
00  
00  
FBA[10:3)  
FBA[10:0] - Feedback Divide PLLA  
Reserved  
RZA[1:0]  
FBA[2:0)  
Reserved  
XDIVA  
IPA[2:0]  
REFSELA  
XDIVA - FB predivide PLLA;  
0 - /1; 1 - /4  
RZA[1:0] - Zero Resistor PLLA  
00 - 5kOhm  
01 - 10kOhm  
10 - 30kOhm  
11 - 80kOhm  
IPA[2:0] - charge Pump Current PLLA  
100 - 6.3uA  
101 -11.9 uA  
110 - 17.7 uA  
111 - 22.7uA  
REFSELA - Clock input PLLA  
0 - MHz input  
1 - 32kHz input  
0x12  
0x13  
0x14  
0x15  
0x16  
0x17  
0x18  
00  
00  
00  
00  
00  
00  
00  
REFB[7:0]  
FBB[10:3]  
REFB[7:0] - Reference Divide PLLB  
FBB[10:0] - Feedback Divide PLLB  
MOD[4:0]  
NSS[4:0]  
FBB[2:0]  
NC[2:0]  
PLLB Spread Parameters MOD[12:0]  
NC[10:0]  
NSS[12:0]  
MOD[12:5]  
NC[10:3]  
NSS[12:5]  
®
IDT™ VERSACLOCK LOW POWER CLOCK GENERATOR  
18  
IDT5P49EE802 REV C 061810  
IDT5P49EE802  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
EEPROM CLOCK GENERATOR  
Default  
Bit #  
Register  
Addr  
Description  
0
Hex  
Value  
40  
7
6
5
4
3
2
1
0x19  
0x1A  
Reserved  
IPB[2:0]  
RZB[1:0]  
SSENB_B  
RZB[1:0] - Zero Resistor PLLB  
00 - 5kOhm  
01 - 10kOhm  
00  
Reserved  
REFSELB  
10 - 30kOhm  
11 - 80kOhm  
IPB[2:0] - charge Pump Current PLLB  
000 - 0.37uA, 100 - 6.3uA  
001 - 1.1uA, 101 - 11.9uA  
010 - 1.8 uA, 110 - 17.7uA  
011 - 3.4uA, 111 - 22.7uA  
REFSELB - Clock input PLLB  
0 - MHz input  
1 - 32kHz input  
0x1B  
0x1C  
0x1D  
0x1E  
00  
00  
00  
00  
REFC[7:0]  
REFC[7:0] - Reference Divide PLLC  
FBC[10:0] - Feedback Divide PLLC  
FBC[10:3]  
Reserved  
FBC[2:0]  
XDIVC  
FBC2[7:0]  
RZC[1:0]  
FBC2 - Feedback Predivide PLLC  
Turn on using XDIVC=1  
0x1F  
00  
IPC[2:0]  
Reserved  
REFSELC  
RZC[1:0] - Zero Resistor PLLC  
00 - 5kOhm  
01 - 10kOhm  
10 - 30kOhm  
11 - 80kOhm  
IPC[2:0] - charge Pump Current PLLC  
100 - 6.3uA  
101 -11.9 uA  
110 - 17.7 uA  
111 - 22.7uA  
REFSELC  
0 - MHz input  
1 - 32kHz input  
0x20  
0x21  
0x22  
0x23  
00  
00  
00  
00  
REFD[7:0]  
FBD[10:3]  
REFD[7:0] - Reference Divide PLLD  
FBD[10:0] - Feedback Divide PLLD  
Reserved  
RZD[1:0]  
FBD[2:0]  
XDIVD  
IPD[2:0]  
REFSELD[1:0]  
XDIVD - FB predivide PLLD;  
0 - /1; 1 - /4  
RZD[1:0] - Zero Resistor PLLD  
00 - 5kOhm  
01 - 10kOhm  
10 - 30kOhm  
11 - 80kOhm  
IPD[2:0] - charge Pump Current PLLD  
100 - 6.3uA  
101 -11.9 uA  
110 - 17.7 uA  
111 - 22.7uA  
REFSELD[1:0]  
00 - MHz input  
11 - 32kHz input  
Others - Reserved  
0x24  
0x25  
0x26  
0x27  
0x28  
0x29  
0x2A  
0x2B  
0x2C  
00  
00  
00  
00  
00  
00  
00  
00  
00  
OD0[7:0]  
Reserved  
OD1[7:0]  
OD2[7:0]  
Reserved  
OD3[7:0]  
OD4[7:0]  
OD5[7:0]  
OD6[7:0]  
OD#[7:0] - Output Divide#  
®
IDT™ VERSACLOCK LOW POWER CLOCK GENERATOR  
19  
IDT5P49EE802 REV C 061810  
IDT5P49EE802  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
EEPROM CLOCK GENERATOR  
Default  
Bit #  
Register  
Addr  
Description  
0
Hex  
Value  
00  
7
6
5
4
3
2
1
0x2D  
SCR6[1:0]  
SCR5[1:0]  
SCR4[1:0]  
SCR3[1:0]  
SRC6[1:0] - OD6 source  
00 - off; 10 - PLLC  
01 - PLLA; 11 - MHz Reference  
SRC5[1:0] - OD5 source  
00 - off; 10 - PLLA  
01 - PLLC; 11 - PLLB  
SRC4[1:0] - OD4 source  
00 - off; 10 - MHz Reference  
01 - PLLC; 11 - 32kHz Reference  
SRC3[1:0] - OD3 source  
00 - off; 10 - 32kHz Reference  
01 - MHz Reference; 11 - PLLD  
0x2E  
00  
Reserved  
SCR0[1:0]  
SCR2[1:0]  
SCR1[1:0]  
Reserved  
Reserved  
SRC2[1:0] - OD2 source  
00 - off; 10 - PLLB  
01 - 32kHz Reference; 11 - PLLD  
SRC1[1:0] - OD1 source  
00 - off; 10 - PLLC  
01 - PLLA; 11 - PLLD  
0x2F  
0x30  
00  
00  
SRC0[1:0] - OD0 source  
00 - off; 10 - PLLC  
01 - PLLB; 11 - PLLD  
Reserved  
0x31  
0x32  
0x33  
00  
00  
00  
PDB[6]  
OE[5]  
Reserved  
OE[4]  
OE[6B]  
OE[3]  
OE[6A]  
Reserved  
Reserved  
Reserved  
PDB[#] - Powerdown OUT#.  
PDB[#]=0, OUT# driven low  
OE[#] - Output enable OUT#. OE[#]=0,  
OUT# tri-stated.  
OE[2]  
OE[1]  
Reserved  
Reserved  
OE[0]  
PDB[5]  
PDB[4]  
PDB[3]  
PDB[2]  
PDB[1]  
PDB[0]  
If PDB#=OE#=0, OUT# driven low  
0x34  
0x35  
0x36  
0x37  
0x38  
0x39  
0x3A  
0x3B  
0x3C  
0x3D  
0x3E  
0x3F  
0x40  
0x41  
0x42  
0x43  
0x44  
0x45  
0x46  
0x47  
0x48  
0x49  
0x4A  
0x4B  
0x4C  
0x4D  
0x4E  
0x4F  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
40  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
REFA[7:0]  
Configuration1  
(See definitions from Configuration0  
above)  
FBA[10:3)  
Reserved  
FBA[2:0)  
Reserved  
XDIVA  
RZA[1:0]  
IPA[2:0]  
REFSELA  
REFB[7:0]  
FBB[10:3]  
MOD[4:0]  
NSS[4:0]  
FBB[2:0]  
NC[2:0]  
MOD[12:5]  
NC[10:3]  
NSS[12:5]  
Reserved  
IPB[2:0]  
RZB[1:0]  
Reserved  
REFSELB  
SSENB_B  
REFC[7:0]  
FBC[10:3]  
Reserved  
FBC[2:0]  
XDIV  
FBC2[7:0]  
RZC[1:0]  
IPC[2:0]  
Reserved  
REFSELC  
REFD[7:0]  
FBD[10:3]  
Reserved  
FBD[2:0]  
XDIVD  
RZD[1:0]  
IPD[2:0]  
REFSELD[1:0]  
OD0[7:0]  
Reserved  
OD1[7:0]  
OD2[7:0]  
Reserved  
OD3[7:0]  
®
IDT™ VERSACLOCK LOW POWER CLOCK GENERATOR  
20  
IDT5P49EE802 REV C 061810  
IDT5P49EE802  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
EEPROM CLOCK GENERATOR  
Default  
Bit #  
Register  
Addr  
Description  
0
Hex  
Value  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
40  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
00  
7
6
5
4
3
2
1
OD4[7:0]  
OD5[7:0]  
OD6[7:0]  
0x50  
0x51  
0x52  
0x53  
0x54  
0x55  
0x56  
0x57  
0x58  
0x59  
0x5A  
0x5B  
0x5C  
0x5D  
0x5E  
0x5F  
0x60  
0x61  
0x62  
0x63  
0x64  
0x65  
0x66  
0x67  
0x68  
0x69  
0x6A  
0x6B  
0x6C  
0x6D  
0x6E  
0x6F  
0x70  
0x71  
0x72  
0x73  
0x74  
0x75  
0x76  
0x77  
0x78  
0x79  
0x7A  
0x7B  
0x7C  
0x7D  
0x7E  
0x7F  
SCR6[1:0]  
Reserved  
SCR0[1:0]  
SCR5[1:0]  
SCR2[1:0]  
SCR4[1:0]  
SCR1[1:0]  
Reserved  
SCR3[1:0]  
Reserved  
Reserved  
PDB[6]  
OE[5]  
Reserved  
OE[4]  
OE[6B]  
OE[3]  
OE[6A]  
Reserved  
Reserved  
Reserved  
OE[2]  
OE[1]  
Reserved  
Reserved  
OE[0]  
PDB[5]  
PDB[4]  
PDB[3]  
PDB[2]  
PDB[1]  
PDB[0]  
REFA[7:0]  
Configuration2  
(See definitions from  
Configuration0 above)  
FBA[10:3)  
Reserved  
FBA[2:0)  
Reserved  
XDIVA  
RZA[1:0]  
IPA[2:0]  
REFSELA  
REFB[7:0]  
FBB[10:3]  
MOD[4:0]  
NSS[4:0]  
FBB[2:0]  
NC[2:0]  
MOD[12:5]  
NC[10:3]  
NSS[12:5]  
Reserved  
IPB[2:0]  
RZB[1:0]  
Reserved  
REFSELB  
SSENB_B  
REFC[7:0]  
FBC[10:3]  
Reserved  
FBC[2:0]  
XDIV  
FBC2[7:0]  
RZC[1:0]  
REFD[7:0]  
FBD[10:3]  
IPC[2:0]  
Reserved  
REFSELC  
Reserved  
FBD[2:0]  
XDIVD  
RZD[1:0]  
IPD[2:0]  
REFSELD[1:0]  
OD0[7:0]  
Reserved  
OD1[7:0]  
OD2[7:0]  
Reserved  
OD3[7:0]  
OD4[7:0]  
OD5[7:0]  
OD6[7:0]  
SCR6[1:0]  
SCR5[1:0]  
SCR2[1:0]  
SCR4[1:0]  
SCR3[1:0]  
Reserved  
Reserved  
SCR0[1:0]  
SCR1[1:0]  
Reserved  
Reserved  
PDB[6]  
Reserved  
OE[6B]  
OE[6A]  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
OE[5]  
OE[4]  
OE[3]  
OE[2]  
OE[1]  
OE[0]  
PDB[5]  
PDB[4]  
PDB[3]  
PDB[2]  
PDB[1]  
PDB[0]  
®
IDT™ VERSACLOCK LOW POWER CLOCK GENERATOR  
21  
IDT5P49EE802 REV C 061810  
IDT5P49EE802  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
EEPROM CLOCK GENERATOR  
Marking Diagram (NL28)  
4802DI  
#YYWW$  
Notes:  
1. “Z” is the device step (1 to 2 characters).  
2. YYWW is the last two digits of the year and week that the part was assembled.  
3. “$” is the assembly mark code.  
4. “G” after the two-letter package code designates RoHS compliant package.  
5. “I” at the end of part number indicates industrial temperature range.  
6. Bottom marking: country of origin if not USA.  
Thermal Characteristics 28-pin QFN  
Parameter  
Symbol  
Conditions  
Min.  
Typ. Max. Units  
Thermal Resistance Junction to  
Ambient  
Still air  
47.0  
41.8  
39.2  
52.9  
C/W  
C/W  
C/W  
C/W  
JA  
JA  
JA  
JC  
1 m/s air flow  
2.5 m/s air flow  
Thermal Resistance Junction to Case  
®
IDT™ VERSACLOCK LOW POWER CLOCK GENERATOR  
22  
IDT5P49EE802 REV C 061810  
IDT5P49EE802  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
EEPROM CLOCK GENERATOR  
Package Outline and Package Dimensions (28-pin 4mm x 4mm QFN)  
Package dimensions are kept current with JEDEC Publication No. 95  
(Ref)  
Seating Plane  
(ND-1)x  
(Ref)  
e
ND & NE  
Even  
A1  
Index Area  
(Typ)  
If ND & NE  
are Even  
L
A3  
e
2
N
1
2
N
1
2
(NE-1)x  
(Ref)  
e
Sawn  
Singulation  
E2  
E
E2  
2
Top View  
b
A
C
(Ref)  
ND & NE  
Odd  
e
Thermal Base  
D
EP – Exposed thermal pad  
should be externally  
D2  
2
connected to ground.  
C
D2  
0.08  
Millimeters  
Symbol  
Min  
0.80  
0
0.20 Reference  
0.15  
Max  
1.00  
0.05  
A
A1  
A3  
b
0.25  
e
0.40 BASIC  
N
28  
N
N
7
7
D
E
D x E BASIC  
4.00 x 4.00  
D2  
E2  
L
2.50  
2.50  
0.30  
2.70  
2.70  
0.50  
Ordering Information  
Part / Order Number  
Marking  
See page 22  
Shipping Packaging  
Tubes  
Package  
28pin VFQFPN  
Temperature  
-40 to +85C  
5P49EE802NDGI  
5P49EE802NDGI8  
See page 22  
Tape and Reel  
28pin VFQFPN  
-40 to +85C  
Parts that are ordered with a “G” after the two-letter pacakage code are the Pb-Free configuration and are RoHS compliant.  
While the information presented herein has been checked for both accuracy and reliability, Integrated Device Technology (IDT) 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 IDT. IDT reserves the right to change any circuitry or specifications without notice. IDT  
does not authorize or warrant any IDT product for use in life support devices or critical medical instruments.  
®
IDT™ VERSACLOCK LOW POWER CLOCK GENERATOR  
23  
IDT5P49EE802 REV C 061810  
IDT5P49EE802  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
EEPROM CLOCK GENERATOR  
Revision History  
Rev. Originator  
Date  
Description of Change  
--  
A
B
C
R.Willner  
R.Willner  
R.Willner  
R.Willner  
10/14/09 Initial Preliminary Datasheet  
11/20/09 No_PD bit inclusion - 32kHz clock on/off in Config 00.  
3/25/10 Typographical changes. Correct spread spectrum calculations.  
6/18/10 Typographical changes. Default configuration.  
®
IDT™ VERSACLOCK LOW POWER CLOCK GENERATOR  
24  
IDT5P49EE802 REV C 061810  
IDT5P49EE802  
VERSACLOCK® LOW POWER CLOCK GENERATOR  
EEPROM CLOCK GENERATOR  
Innovate with IDT and accelerate your future networks. Contact:  
www.IDT.com  
For Sales  
800-345-7015  
408-284-8200  
Fax: 408-284-2775  
For Tech Support  
408-284-4522  
clockhelp@idt.com  
Corporate Headquarters  
Integrated Device Technology, Inc.  
www.idt.com  
© 2006 Integrated Device Technology, Inc. All rights reserved. Product specifications subject to change without notice. IDT and the IDT logo are trademarks of Integrated Device  
Technology, Inc. Accelerated Thinking is a service mark of Integrated Device Technology, Inc. All other brands, product names and marks are or may be trademarks or registered  
trademarks used to identify products or services of their respective owners.  
Printed in USA  
厂商 型号 描述 页数 下载

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