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| ZL40815 10GHz Fixed Modulus / 4 Data Sheet Features * * * * * * Very High Operating Speed Operation down to DC with Square Wave Input Low Phase Noise (Typically better than -146dBc/Hz at 10kHz) 5V Single Supply Operation Low Power Dissipation: 510mW (Typ) Surface Mount Plastic Package With Exposed Pad (See Application Notes) Ordering Information ZL40815/DCE (tubes) 8 lead e-pad SOIC ZL40815/DCF (tape and reel) 8 lead e-pad SOIC -40C to +85C January 2003 Description The ZL40815 is one of a range of 5V supply, very high speed, low power prescalers for professional applications with a fixed modulus of divide by 4. The dividing elements are static D type flip flops, and therefore, allow operation down to DC if the drive signal is a pulse waveform with fast risetimes. The output stage has internal 50 ohm pull up giving a 1V p-p output. See application notes for more details Applications * * * * * * * DC to 10 GHz PLL applications HyperLan LMDS Instrumentation Satellite Communications Fibre Optic Communications; OC48, OC192 Ultra Low Jitter Clock Systems VCC IN 1 50 Ohm VCC OUT 8 OUTPUT 7 6 OUTPUT B Vref Div 4 400 Ohm INPUT 2 INPUT B 3 20mA GND 4 GND 5 Figure 1 - Block Diagram 1 ZL40815 Pin Connections - Top View Vcc INPUT INPUT INPUT B GND Data Sheet 1 2 3 4 8 7 6 5 Vcc OUTPUT OUTPUT OUTPUT B GND SOIC (N) E-Pad Applications Configuration Figure 2 shows a recommended application configuration. This example shows the devices set up for single ended operation. R3:100ohm C8:10nF C3:100pF 1 2 C4:100pf 3 R1:50ohm C5:100pf 4 6 5 8 7 C6:10nF C7:10nF C2:10nF C1:10uF Vcc 5V R2:50ohm Example Configuration for Single ended operation Figure 2 - Recommended circuit configuration The above circuit diagram shows some components in dotted lines. These are optional in many applications. 1. C1 (10 F) and C2 (10 nF) power supply decoupling capacitors may be available on the board already. 2. R3 (100 Ohm) and C8 (10 nF) can be included if further power supply decoupling is required for the first stage biasing circuit. This may optimise the noise and jitter performance. The values are suggestions and may have to be modified if the existing supplies are particularly noisy. 3. R1 (50 Ohm), in series with C5 (100 pF), may reduce feedthrough of the input signal to the output. 4. R2 (50 Ohm) and C7 (10 nF) will help to balance the current drawn from the power supply and may reduce voltage transients on the power supply line. 2 Zarlink Semiconductor Inc. Data Sheet Evaluation Boards From Zarlink Semiconductor ZL40815 Zarlink Semiconductor provide a prescaler evaluation board. These are primarily for those interested in performing their own assessment of the operation of the prescalers. The boards are supplied unpopulated and may be assembled for single ended or differential input and output operation. Once assembled, all that is required is an Rf source and a DC supply for operation. The inputs and outputs are connected via side launch SMA connectors. Absolute Maximum Ratings Parameter Symbol Min Max Units 1 2 3 4 5 6 Supply voltage Prescaler Input Voltage ESD protection (Static Discharge) Storage temperature Maximum Junction Temp Thermal characteristics Vcc 2.5 2k TST TJmax THja 58.6 -65 6.5 (Vdd_IO+5%) +150 +125 V Vp-p V C C C/W multi-layer PCB AC/DC Electrical Characteristics Electrical Characteristics (Tamb = 25C, Vcc = 5V) Characteristic Pin Min. Typ. Max. Units Conditions Supply current Supply current Input frequency Input sensitivity Input sensitivity Input sensitivity Input overload Input overload Input Edge Speed Output voltage Output power Phase Noise (10kHz offset) O/P Duty Cycle 1 8 2,3 2,3 2,3 2,3 2,3 2,3 2,3 6,7 6,7 6,7 6,7 45 -3 900 2 0.35 102 130 11 -8 -15 -10 8 11 -10 0 mA mA GHz dBm dBm dBm dBm dBm V/is Input stage bias current Divider and output stages RMS sinewave, see Note 1 fin = 1GHz to 2GHz fin = 2GHz to 9.5GHz fin = 11GHz fin = 1GHz to 4GHz fin = 5GHz to 11GHz For <2GHz operation. Differential Into 50ohm pullup resistors Single-ended output, fin = 2GHz to 10GHz, pwr ip= -10dBm Fin = 5GHz, pwr ip = 0dBm See Figure 7 and Figure 8. 1 -1 -146 50 55 1.2 Vp-p dBm dBc/Hz % The following characterization test method incremented the amplitude over the entire range of frequency and ensures that there are no "holes" in the characteristic. The following characteristics are guaranteed by either production test or design. Note 1: Input sensitivity and output power values assume 50 Ohm source and load impedances. Zarlink Semiconductor Inc. 3 ZL40815 Data Sheet Typical input sensitivity (sinewave drive) @ +25 Deg C 20.00 10.00 Vin into 50 Ohm (dBm) 0.00 GUARANTEED OPERATING WINDOW -10.00 25C MAX (Typ) -20.00 Input frequency extends to DC if the source has an edge speed of 900 V/us or more or less -30.00 -40.00 0 1 2 3 4 5 6 7 8 9 10 11 12 13 Input Frequency (GHz) Figure 3 - Input Sensitivity @ +25 Deg C Electrical Characteristics (Vcc = 5V 5%, Tamb = -40 to +85C) Characteristic Pin Min. Typ. Max. Units Conditions Supply current Supply current Supply current Supply current Supply current Supply current Supply current 1 8 8 8 8 8 8 73 59 81 65 87 67 0.35 102 83 112 91 121 96 131 106 142 116 156 125 mA mA mA mA mA mA mA Input stage bias current, see Note 1 -40 degC 5.25V -40 degC 4.75V +25 degC 5.25V +25 degC 4.75V +85 degC 5.25V +85 degC 4.75V The characteristics are guaranteed by design and characterisation over the range of operating conditions unless otherwise stated: (Input Frequency range 1 to 10GHz rms Sinewave) Note 1: Pin 1 is the Vcc pin for the 1st stage bias current. In some applications e.g. if the power supply is noisy, it may be advantageous to add further supply decoupling to this pin (i.e. an additional R, C filter, see diagram of the recommended circuit configuration, figure 9). 4 Zarlink Semiconductor Inc. Data Sheet Input and Output Characteristics Characteristic Pin Min. Typ. Max. Units Conditions ZL40815 Input sensitivity Input overload Input overload Input overload Input overload Input Edge Speed Output voltage Output power O/P Duty Cycle Trise and Tfall 2,3 2,3 2,3 2,3 2,3 2,3 6,7 6,7 6,7 6,7 -4 45 2 2 5 5 900 -15 5 8 13 11 -10 dBm dBm dBm dBm dBm V/is Tamb = 85C, Fin = 2 to 8 GHz fin = 2 GHz fin = 4 GHz fin = 9 GHz fin = 10 GHz For <2GHz Operation, see Note 1 Differential Into 50ohm pullup resistors Single-ended output, fin = 2GHz to 10GHz, pwr ip= -10dBm 1 -1 50 110 2 55 Vp-p dBm % ps Note 1: Input sensitivity and output power values assume 50 Ohm source and load impedances. Input sensitivity and output power values assume 50 Ohm source and load impedances. For details of the test set-up, refer to the Application Note for RF Prescalers. Zarlink Semiconductor Inc. 5 ZL40815 The following graph summarises the Input and Output Characteristics table. Typical input sensitivity (sinewave drive) @ -40 to +85 Deg C 20.00 85 Deg C 70 Deg C 25 Deg C Data Sheet 10.00 Vin into 50 Ohm (dBm) 0.00 GUARANTEED OPERATING WINDOW -10.00 85C 70 25C -40C MAX (Typ) -20.00 Input frequency extends to DC if the source has an edgespeed of 900 V/us or more or less -30.00 -40.00 0 1 2 3 4 5 6 7 8 9 10 11 12 13 Input Frequency (GHz) Figure 4 - Input Sensitivity @ -40, +25, +70 and +85 Deg C ZL40815 Phase Noise vs Offset Pin = 0dBm, Vcc = 5.25V, Temp = 25DegC Phase Noise (dBc/Hz) -130 -135 -140 -145 -150 0.1 1 10 100 Offset Frequency (kHz) 5GHz 2GHz Figure 5 - ZL40815 Phase Noise vs Offset Frequency 6 Zarlink Semiconductor Inc. Data Sheet ZL40815 ZL40815 Phase Noise vs Input Frequency Pin = 0dBm, Vcc = 5.25V, Temp = 25 DegC Phase Noise (dBc/Hz) -130 -135 -140 -145 -150 0 1 2 3 4 5 6 Input Frequency (GHz) 100Hz 1kHz 10kHz 100kHz Figure 6 - ZL40815 Phase Noise vs Input Frequency Single Ended Output Power The following graphs show how the output power varies with supply. Differential output power will be 3dB. ZL8015_dev1_Pout_Frequency_sweep, Vcc = 4.75v Device 1,Temperature = -40C Device 1,Temperature = 85C 2 1 0 -1 -2 -3 -4 -5 -6 1000000000 i/p frequency (Hz) Device 1,Temperature = 25C o/p level (dBm) 10000000000 Figure 7 - Pout, Freq, Temp @ Vcc = 4.75V Zarlink Semiconductor Inc. 7 ZL40815 Data Sheet Frequency_sweep, Vcc = 5v Device 1,Temperature = -40C Device 1,Temperature = 85C 5 4 3 2 1 0 -1 -2 -3 -4 -5 -6 -7 -8 -9 -10 -11 -12 -13 -14 -15 Device 1,Temperature = 25C o/p level (dBm) 1000000000 i/p frequency (MHz) 10000000000 Figure 8 - Pout, Freq, Temp @ Vcc = 5V ZL40815_Pout_Frequency_sweep, Vcc = 5.25v Device 1,Temperature = -40C Device 1,Temperature = 85C 2 1 0 -1 -2 -3 -4 -5 -6 1000000000 i/p frequency (Hz) Device 1,Temperature = 25C o/p level (dBm) 10000000000 Figure 9 - Pout, Freq, Temp @ Vcc = 5.25V 8 Zarlink Semiconductor Inc. Data Sheet Oscillographs of the divider output waveforms ZL40815 The following oscillographs show that the low-level feedthrough of the input waveform can be further reduced by summing the two output pins of the device differentially, refer to Figure 10 and Figure 11. Figure 10 - Feedthrough of the input single-ended-output configuration VCC = 5V, Vin = 2dBm, Fin = 10GHz Figure 11 - Feedthrough of the input using differential output configuration VCC = 5V, Vin = 2dBm, Fin = 10GHz Zarlink Semiconductor Inc. 9 ZL40815 Figure 12 and Figure 13 show the output waveforms with a lower input frequency. Data Sheet Figure 12 - Differential output with small input amplitute waveform VCC = 4.75V, Vin = 10dBm, Fin = 5GHz Figure 13 - Differential output with lower frequency input VCC = 4.75V, Vin = 10dBm, Fin = 2GHz 10 Zarlink Semiconductor Inc. For more information about all Zarlink products visit our Web Site at www.zarlink.com Information relating to products and services furnished herein by Zarlink Semiconductor Inc. trading as Zarlink Semiconductor or its subsidiaries (collectively "Zarlink") is believed to be reliable. However, Zarlink assumes no liability for errors that may appear in this publication, or for liability otherwise arising from the application or use of any such information, product or service or for any infringement of patents or other intellectual property rights owned by third parties which may result from such application or use. Neither the supply of such information or purchase of product or service conveys any license, either express or implied, under patents or other intellectual property rights owned by Zarlink or licensed from third parties by Zarlink, whatsoever. Purchasers of products are also hereby notified that the use of product in certain ways or in combination with Zarlink, or non-Zarlink furnished goods or services may infringe patents or other intellectual property rights owned by Zarlink. This publication is issued to provide information only and (unless agreed by Zarlink in writing) may not be used, applied or reproduced for any purpose nor form part of any order or contract nor to be regarded as a representation relating to the products or services concerned. The products, their specifications, services and other information appearing in this publication are subject to change by Zarlink without notice. No warranty or guarantee express or implied is made regarding the capability, performance or suitability of any product or service. Information concerning possible methods of use is provided as a guide only and does not constitute any guarantee that such methods of use will be satisfactory in a specific piece of equipment. It is the user's responsibility to fully determine the performance and suitability of any equipment using such information and to ensure that any publication or data used is up to date and has not been superseded. Manufacturing does not necessarily include testing of all functions or parameters. These products are not suitable for use in any medical products whose failure to perform may result in significant injury or death to the user. All products and materials are sold and services provided subject to Zarlink's conditions of sale which are available on request. Purchase of Zarlink's I2C components conveys a licence under the Philips I2C Patent rights to use these components in an I2C System, provided that the system conforms to the I2C Standard Specification as defined by Philips. Zarlink and the Zarlink Semiconductor logo are trademarks of Zarlink Semiconductor Inc. Copyright 2002, Zarlink Semiconductor Inc. All Rights Reserved. TECHNICAL DOCUMENTATION - NOT FOR RESALE |
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