NSVS1097 Jan. 2005 JRC SAW FILTER NSVS1097 Application 243.95MHz PHS Base-Station 1st IF Electrical Specification: (Table 1) The device characteristics are measured in the circuit shown in Fig.1. Table 1. Electrical Specifications Item Nominal Center Frequency (f0) 3dB Band Width Insertion Loss at f0 Ripple f0100kHz Group Delay Time Ripple f0100kHz Attenuation f0600kHz f010.7MHz f021.4MHz Spec. Typ. 243.95MHz 130kHz 4.0dB 3.3dB 0.85dB 0.40dB 0.85us 0.40us 25dB 30dB 50dB 65dB 60dB 65dB (Operating Temperature Range : -30+85) Maximum Rating: (Table 2) Table 2. Maximum Ratings Item Maximum Input Power Operating Temperature Range Storage Temperature Rating +5dBm -30~+85C -40~+95C Mechanical Specifications: (Fig.2) Package is designed as small as 3.5x3.5x1.0[mm3] for SMD (Surface Mount Device) type. Notice: This part is electrostatic discharge sensitive and may be damaged by improper handling. Communications Equipment Division Communications Equipment Marketing Department 10-1, Nishi-Shinjuku 6-chome, Shinjuku-ku, Tokyo, 160-8328 Japan Tel. +81 3-3348-3845 Fax. +81 3-3348-3935 http://www.jrc.co.jp/jp/product/device/saw/index.html (Japanese) http://www.jrc.co.jp/eng/product/saw/index.html (English) NSVS1097 Jan. 2005 1 8 OUT 50 7 2 SAW 6 3 IN 4 5 50 Fig.1 Measuring circuit (b) 3. 50.2 ( a) (c) 3.50 .2 511 S7 ( 1) 1.00 .2 (2 ) (0.8) [ 5x ] 4 3 5 (0 .6) [8x ] ( 0. 95) Marking (1) Lot Number (a) Year (b) Month Oct. --Nov. --Dec. --(c) Date 0- 9 10 - 19 20 - 31 (2) Part number Mark 2 6 (1 .0) [2x ] ( 2.54) (1.27) ( 0.6) 1 7 8 Fig.2 Package Dimensions (in mm) 4.3 1.27 4.3 1.27 0.8 [6x] 1.3 [6x] Via - Hole( 0.3) 0.8 Fig.3 Desirable land area (in mm) Pin no. 1 2 3 4 5 6 7 8 X Y Z 0 1 2 Connection GND IN/OUT GND GND GND OUT/IN GND GND NSVS1097 Jan. 2005 Notice 1. Use this component within operating temperature range. It might not be satisfied with electrical specification without operating temperature range. When it is used less than -30C or more than +85C, it might be a cause of degradation or destruction of the component. Even if it endures during a short time, it causes degradation of qualification. 2. When soldering iron is used, solder with the temperature at the tip of soldering iron: 350C max., the time of soldering: 10 seconds max., the power of soldering iron: 30W max.. 3. Notice that the allowed time of soldering with soldering iron is accumulated time, when soldering is repeated. 4. As rapid temperature change for cleaning after reflow soldering might be a cause of destruction clean this component after confirming that temperature of this component goes down to room temperature. 5. Confirm that there are not any influence for qualification to this component in mounting on PCB when this component is cleaned. 6. As it might be a cause of degradation of destruction to apply static electricity to this component, do not apply static electricity or excessive voltage while assembling and measuring. And do not transport this component with bare hand. Note 1. This specification specifies the quality of this component as a single unit. Make sure that this component is evaluated and confirmed against this specification when it is mounted to your products. 2. The information contained herein may be changed without prior notice. It is therefore advisable to contact Japan Radio Company before proceeding with the design of equipment incorporating this product. 3. The products are designed to be used with ordinary electronic equipment (data and communications equipment, office equipment, audio-video equipment, measuring instruments, etc). Japan Radio Company does not assume any liability for the case using the products with the application required high reliability or safety extremely (such as space equipment, sea-bottom equipment, medical equipment etc). When intending to use any our product please contact our sales representatives in advance. NSVS1097 Jan. 2005 TZY2Z2R5A001B00 0.65 - 2.5 pF LQW18ANR10G00D 100nH TZY2Z2R5A001B00 0.65 - 2.5 pF 1 8 LQW18ANR10G00D 100nH 7 2 SA W 6 3 5 OUT 50 IN 50 4 TZY2Z2R5A001B00 0.65 - 2.5 pF TZY2Z2R5A001B00 0.65 - 2.5 pF Fig. 4