PRELIMINARY INFORMATION ICS674-01 User Configurable Divider Description Features The ICS674-01 consists of 2 separate configurable dividers. The A Divider is a 7 bit divider and can divide by 3 to 129. The B Divider consists of a 9 bit divider followed by a post divider. The 9 bit divider can divide by 12 to 519. The post divider has eight settings of 1, 2, 4, 5, 6, 7, 8 and 10 giving a maximum total divide of 5190. The A and B Dividers can be cascaded to give a maximum divide of 669510. The ICS674-01 supports the ICS673 PLL Building Block and enables the user to build a full custom PLL synthesizer. • Packaged as 28 pin SSOP (150 mil body) • Supports ICS673 PLL Building Block • User determines the divide by setting input pins • Pull-ups on all select inputs • Includes one 7-bit Divider for OUTA • Includes one 9-bit Divider and one selectable Post Divider for OUTB • Operating voltages of 3.3 V or 5.0 V • Industrial temperature range available • 25mA drive capability at TTL levels • Advanced, low power CMOS process Block Diagram A6:A0 7 INA INB VDD 2 GND 3 Divider A (7-Bit) Divider B (9-Bit) Post Divider 9 3 B8:B0 S2:S0 Output Buffer OUTA Output Buffer OUTB 1 Revision 033199 Printed 11/15/00 Integrated Circuit Systems • 525 Race Street • San Jose • CA • 95126 •(408)295-9800tel•(408)295-9818fax MDS 674-01 A PRELIMINARY INFORMATION Pin Assignment A5 A6 S0 S1 S2 VDD INA INB GND B0 B1 B2 B3 B4 1 2 3 4 5 6 7 8 9 10 11 12 13 14 ICS674-01 User Configurable Divider Post Divider Table 28 27 26 25 24 23 22 21 20 19 18 17 16 15 A4 A3 A2 A1 A0 VDD OUTA OUTB GND GND B8 B7 B6 B5 S2 pin 5 0 0 0 0 1 1 1 1 S1 pin 4 0 0 1 1 0 0 1 1 S0 pin 3 0 1 0 1 0 1 0 1 Post Divide 10 2 8 4 5 7 1 6 Pin Description Pin # Name 1, 2, 24-28 A5, A6, A0-A4 3, 4, 5 S0, S1, S2 6, 23 VDD P Connect to VDD. 7 INA I Divider A input. 8 INB I Divider B input. 9, 19, 20 GND P Connect to ground. 10-18 B0-B8 21 OUTB O Divider B output. 22 OUTA O Divider A output. Key: Type Description I(PU) Divider A word input pins. Forms a binary number from 3 to 129. I(PU) Select pins for Post Divider. See table above. I(PU) Divider B word input pins. Forms a binary number from 12 to 519. I(PU) = Input with internal pull-up resistor; I=Input (no pull-up); O = Output; P = Power supply connection External Components The ICS674-01 requires a 0.01µF decoupling capacitor to be connected between VDD and GND. It must be connected close to the ICS674-01 to minimize lead inductance. Terminating resistors of 33Ω can be used in series with the OUTA and OUTB pins. 2 Revision 033199 Printed 11/15/00 Integrated Circuit Systems • 525 Race Street • San Jose • CA • 95126 •(408)295-9800tel•(408)295-9818fax MDS 674-01 A PRELIMINARY INFORMATION ICS674-01 User Configurable Divider Determining (setting) the divider The user has full control in setting the desired divide. The user should connect the appropriate divider select input pins directly to ground (or VDD, although this is not required because of internal pull-ups) during Printed Circuit Board layout, so that the ICS674-01 automatically produces the correct divide when all components are soldered. It is also possible to connect the inputs to parallel I/O ports in order to change divides. The divides of the ICS674-01 can be determined by the following simple equations: Divide A = DAW+2 Where Divider A Word (DAW) = 1 to 127 (0 is not permitted). Divide B = (DBW+8)•PD Where Divider B Word (DBW) = 4 to 511 (0,1,2,3, are not permitted). Post Divider (PD) = values on Page 2 For example, suppose Divide A is desired to be 61 and Divide B is desired to be 284, then DAW = 59, DBW = 276 and PD = 1. This means A6:A0 is 0111011, B8:B0 is 100010100 and S2:S0 is 110. Since all inputs have pull-ups, it is only necessary to ground the zero pins, namely A6, A2, B7, B6, B5, B3, B1, B0 and S0. 3 Revision 033199 Printed 11/15/00 Integrated Circuit Systems • 525 Race Street • San Jose • CA • 95126 •(408)295-9800tel•(408)295-9818fax MDS 674-01 A PRELIMINARY INFORMATION ICS674-01 User Configurable Divider Using the ICS674-01 with the ICS673-01: The ICS674-01 may be used with the ICS673-01 to build a frequency synthesizer. The following example shows a typical application when the reference clock is in the MHz range: Reference Clock REFIN Divide A Output Clock CLK1 ICS673-01 CLK2 FBIN Post Divide ICS674-01 Divide B If the reference is in the kHz range, for example 8 kHz, the following configuration may be more typical: Reference Clock REFIN CLK1 Output Clock ICS673-01 CLK2 FBIN Divide A Post Divide Divide B ICS674-01 Note that in both examples Divide B is connected to the output of the ICS673. This is because Divide B has a higher operating frequency than Divide A. 4 Revision 033199 Printed 11/15/00 Integrated Circuit Systems • 525 Race Street • San Jose • CA • 95126 •(408)295-9800tel•(408)295-9818fax MDS 674-01 A PRELIMINARY INFORMATION ICS674-01 User Configurable Divider Parameter Conditions Minimum Typical ABSOLUTE MAXIMUM RATINGS (stresses be ond these can permanentl damage the deevice) 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 I version -40 Soldering Temperature Max of 10 seconds Storage Temperature -65 DC CHARACTERISTICS (VDD = 5.0V unless oth herwise noted) Operating Voltage, VDD 3 Input High Voltage, VIH All A, B, and S pins 2 Input Low Voltage, VIL All A, B, and S pins Input High Voltage, VIH, INA and INB only (VDD/2)+1 VDD/2 Input Low Voltage, VIL, INA and INB only VDD/2 Output High Voltage, VOH IOH=-25mA 2.4 Output Low Voltage, VOL IOL=25mA IDD, Op. Supply Cur., DivA=DivB=20 at 3.3 V No Load, fin=100 MHz 3 5 IDD, Op. Supply Cur., DivA=DivB=20 at 5 V No Load, fin=100 MHz Short Circuit Current, outputs ±70 On-Chip Pull-up Resistor A, B, S select pins 270 Input Capacitance A, B, S select pins 5 AC CHARACTERISTICS (VDD = 5.0V unless oth herwise noted) Input Frequency, Divider A at 3.3 V 0 Input Frequency, Divider B at 3.3 V 0 Input Frequency, Divider A at 5 V 0 Input Frequency, Divider B at 5 V 0 Input Frequency, Divider A (Industrial temperature) at 3.3 V at 85 °C 0 Input Frequency, Divider B (Industrial temperature) at 3.3 V at 85 °C 0 Input Frequency, Divider A (Industrial temperature) at 5 V at 85 °C 0 Input Frequency, Divider B (Industrial temperature) at 5 V at 85 °C 0 Output Clock Rise Time 0.8 to 2.0V 1 Output Clock Fall Time 2.0 to 0.8V 1 OUTB Clock Duty Cycle (see note) at VDD/2 45 49 to 51 OUTB Clock Duty Cycle, odd post dividers at VDD/2, except PD=1 40 OUTA Clock Duty Cycle (see note) at VDD/2 20 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 V V mA mA mA kΩ pF 0.8 (VDD/2)-1 0.4 135 180 200 235 125 170 190 220 55 60 98.5 MHz MHz MHz MHz MHz MHz MHz MHz ns ns % % % Note: The duty cycle of OUTA is dependent on the selected divide. This is because OUTA goes low for 2 input clock cycles on INA. So, for example, if a divide of 20 is selected, the duty cycle will be 90%. Similarly, if PD=1 is selected for OUTB, the duty cycle will be dependent on the selected divide. In this case OUTB goes high for approximately 8 input clock cycles on INB. 5 Revision 033199 Printed 11/15/00 Integrated Circuit Systems • 525 Race Street • San Jose • CA • 95126 •(408)295-9800tel•(408)295-9818fax MDS 674-01 A PRELIMINARY INFORMATION Package Outline and Package Dimensions E Q e 28 pin SSOP Symbol A b c D E H e h Q L H h x 45° D b ICS674-01 User Configurable Divider Inchees Min Max 0.061 0.068 0.008 0.012 0.007 0.010 0.385 0.400 0.150 0.160 0.230 0.245 .025 BSSC 0.016 0.004 0.01 0.016 0.035 Millim meters Min Max 1.55 1.73 0.203 0.305 0.191 0.254 9.779 10.160 3.810 4.064 5.842 6.223 0.635 BSC 0.406 0.102 0.254 0.406 0.889 c L Ordering Information Part/Order Number ICS674R-01 ICS674R-01T ICS674R-01I ICS674R-01IT Marking * 674R-01 674R-01 674R-01I 674R-01I Package 28 pin narrow SSOP 28 pin SSOP on tape and reel 28 pin narrow SSOP 28 pin SSOP on tape and reel Temperature 0 to 70 °C 0 to 70 °C -40 to 85 °C -40 to 85 °C *This shows the top line marking. The part will have the letters ICS in a box on the upper left hand corner. While the information presented herein has been checked for both accuracy and reliability, 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. 6 Revision 033199 Printed 11/15/00 Integrated Circuit Systems • 525 Race Street • San Jose • CA • 95126 •(408)295-9800tel•(408)295-9818fax MDS 674-01 A