High-frequency Relay G6Z Miniature 2.6-GHz-Band, PDT, High-frequency Relay uperior high-frequency characteristics include an isolation of db, insertion loss of.5 db, and V..W.R. of.5 at 2.6 GHz. Triplate micro stripline technology assures superior high-frequency characteristics. Miniature dimensions of x x 8.9 mm (L x W x H). E-shape or Y-shape terminal options with reverse contact arrangements available, allows greater freedom with PCB design. Choose between 5-Ω or 5-Ω impedance models RoH Compliant. Ordering Information Classification tructure Contact form Non-latching ingle coil latching Dual coil latching Fully sealed Model Number Legend: G6Z - - - DC 2 4 5 6 Terminal arrangement Characteristic impedance Rated coil Model Through-hole urface Mount PDT E-shape 5 Ω, 4.5, 5, 9, 2, and 24 VDC G6Z-PE G6Z-FE 5 Ω G6Z-PE-A G6Z-FE-A Y-shape 5 Ω G6Z-P G6Z-F 5 Ω G6Z-P-A G6Z-F-A E-shape 5 Ω G6ZU-PE G6ZU-FE 5 Ω G6ZU-PE-A G6ZU-FE-A Y-shape 5 Ω G6ZU-P G6ZU-F 5 Ω G6ZU-P-A G6ZU-F-A E-shape 5 Ω G6ZK-PE G6ZK-FE 5 Ω G6ZK-PE-A G6ZK-FE-A Y-shape 5 Ω G6ZK-P G6ZK-F 5 Ω G6ZK-P-A G6ZK-F-A Notes:. When ordering, add the rated coil to the model number. Example: G6Z-PE-A-DC2 Rated coil 2. When ordering tape packing (surface mount models), add "-TR" to the model number. Example: G6ZU-FE-TR-DC2 Tape packing "-TR" is not part of the relay model number. Therefore, it is not marked on the relay case.. Relay Function None: Non-latching U: ingle coil latching K: Dual coil latching 2. Contact Form : PDT. Terminal hape F: urface mount terminals P: PCB through-hole terminals 4. Terminal tructure None: Y-shape terminal E: E-shape terminal 5. Characteristic Impedance None: 5 Ω A: 5 Ω 6. Contact arrangement None: tandard contact arrangement R: Reverse contact arrangement. Rated Coil Voltage, 4.5, 5, 9, 2, 24 High-frequency Relay G6Z
Application Examples These Relays can be used for switching signals in media equipment. Wire communications: Cable TV (TB and broadcasting infrastructure), cable modems, and VR (video response systems) Wireless communications: Transceivers, ham radios, ETC, IT, high-level TV, satellite broadcasting, text multiplex broadcasting, mobile phone stations, TV broadcasting facilities, community antenna systems and car navigation systems Entertainment equipment: TVs, video games, satellite radio units, Industrial equipment: Measuring equipment, test equipment, and multiplex transmission devices pecifications Contact Ratings Load type Contact Material Rated load Rated carry current Max. switching Max. switching current Resistive load Au clad Cu alloy Note: This value is for an impedance of 5 Ω or 5 Ω with a V..W.R. of.2 High-frequency Characteristics ma at VAC; ma at VDC; W at 9 MHz (ee note).5 A VAC, VDC.5 A Frequency 9 MHz 2.6 GHz Terminal type Through hole urface mount Through hole urface mount Terminal structure E-shape Y-shape E-shape Y-shape E-shape Y-shape E-shape Y-shape Isolation 5 Ω 65 db 6 db 5 db 45 db db 4 db 5 Ω 6 db Insertion loss (not 5 Ω.2 db.5 db including substrate loss) 5 Ω. db. db V..W.R. 5 Ω.2.5 5 Ω.. Return loss 5 Ω.8 db 4. db 5 Ω 26.4 db. db Maximum carry power W (ee note 2) Maximum switching power W (ee note 2) Note:. The above values are initial values. 2. These values are for an impedance of 5 Ω or 5 Ω with a V..W.R. of.2 2 High-frequency Relay G6Z
Coil Ratings Non-latching, tandard and Reverse-contact Models G6Z-P(E), G6Z-F(E) Rated Rated current (ma) Coil resistance (Ω) Must operate 4.5 66. 44.4 45 5% of rated 5 4. 25 9 22.2 45 2 6. 24 8. 2,88 Must dropout % of rated Maximum 5% of rated Power consumption (mw) Approx. ingle Coil Latching Models G6ZU-P(E), G6ZU-F(E) Rated Rated current (ma) Coil resistance (Ω) Dual Coil Latching Models G6ZK-P(E), G6ZK-F(E) Must set 4.5 66. 44.4 45 5% of rated 5 4. 25 9 22.2 45 2 6. 24 8. 2,88 Rated Rated current (ma) Coil resistance (Ω) Must set 25 5% of 4.5 8 56 rated 5 2 69 9 4 225 2 4 24 5,6 Must reset 5% of rated Must reset 5% of rated Note:. The rated current and coil resistance are measured at a coil temperature of 2 C with a tolerance of ±%. 2. The operating characteristics are measured at a coil temperature of 2 C.. The maximum is the highest that can be imposed on the relay coil instantaneously. 4. The measurements for operate/release and set/reset are the values obtained for instantaneous changes in the (rectangular wave). Maximum 5% of rated Maximum 5% of rated Power consumption (mw) Approx. Power consumption (mw) Approx. 6 High-frequency Relay G6Z
Characteristics Item Note:. The above values are initial values. 2. The contact resistance was measured with ma at VDC with a drop method.. Values in parentheses are typical values. 4. The insulation resistance was measured with a 5-VDC megohmmeter applied to the same parts as those used for checking the dielectric strength. Engineering Data Non-latching models ingle coil latching models Dual coil latching models G6Z-P(E), G6Z-F(E) G6ZU-P(E), G6ZU-F(E) G6ZK-P(E), G6ZK-F(E) Contact resistance (ee note 2) mω Operating (set) time (ee note ) ms (approx..5 ms) ms (approx. 2.5 ms) Release (reset) time (ee note ) ms (approx 2.5 ms) et/reset time --- 2 ms Insulation resistance (ee note 4) MΩ (at 5 VDC) Dielectric strength Coil and contacts, VAC, 5/6 Hz for Coil and ground, 5 VAC, 5/6 Hz for contacts and ground Contacts of same 5 VAC, 5/6 Hz for polarity Vibration resistance Mechanical durability to 55 to Hz,.5-mm single amplitude (.5-mm double amplitude) Malfunction durability to 55 to Hz,.5-mm single amplitude (.5-mm double amplitude) hock resistance Mechanical durability, m/s 2 Malfunction durability 5 m/s 2 ervice life Mechanical,, operations (at 6, operations/hour) Electrical, operations ( VAC, ma/ VDC, ma),, operations (9 MHz, W) at a switching frequency of,8 operations/hour Ambient temperature Operating: -4 C to C (with no icing or condensation) Ambient humidity Operating: 5% to 85% RH Weight Approx. 2.8 g Ambient Temperature vs. Maximum Voltage Maximum (%) 25 5 5 4 G6Z G6ZU G6ZK 4 6 8 Ambient temperature ( C) Ambient Temperature vs. Must Operate or Must Release Voltage On the basis of rated (%) 9 8 6 5 4 6 ample: G6Z-P 5 VDC Number of relays: 5 4 Max. estimated value avg. avg. Must operate Must release 4 6 8 Ambient temperature ( C) hock Malfunction X,, Z' hock direction X X' Y Z Z' Y' 4 6 8, Y' Y, Energized 8 6 Not energized 4 Z,, X' Unit: m/s 2 ample: G6Z-P-A 5 Ω 5 VDC Number of relays: 5 Conditions: hock is applied in ±X, ±Y, and ±Z directions three times each with and without energizing the Relays to check for contact malfunctions. 4 High-frequency Relay G6Z
Electrical Endurance (with Must Operate and Must Release Voltage) On the basis of rated (%) 8 6 4 ample: G6Z-PE 5 Ω 5 VDC Number of Relays: 5 Test conditions: ma resistive load at VAC witching frequency:,8 operations/h Must operate Must release Electrical Endurance (with Must Operate and Must Release Voltage) On the basis of rated (%) 8 6 4 ample: G6Z-PE 5 Ω 5 VDC Number of Relays: 5 Test conditions: ma resistive load at VDC witching frequency:,8 operations/h Must operate Must release.... Electrical Endurance (Contact Resistance) Contact resistance (mω), 5 Contact resistance 5 Operating frequency ( operations) ample: G6Z-PE 5 Ω 5 VDC Number of Relays: 5 Test conditions: ma resistive load at VAC witching frequency:,8 operations/h NO contact NC contact..., Operating frequency ( operations) External Magnetic Interference (Average value) Change rate on the basis of initial value (%) N.... Electrical Endurance (Contact Resistance) Contact resistance (mω) Contact resistance 5 Operating frequency ( operations), ample: G6Z-PE 5 Ω 5 VDC Number of Relays: 5 5 Test conditions: ma resistive load at VDC witching frequency:,8 operations/h..., Operating frequency ( operations) N ample: G6Z-P 5 VDC Must operate ample: G6Z-P 5 VDC Must operate ample: G6Z-P 5 VDC Must operate Number of Relays: 5 Must release Number of Relays: 5 Must release Number of Relays: 5 Must release, 8 4 4 8,, 8 4 4 8,, 8 4 4 8, External magnetic field (A/m) Change rate on the basis of initial value (%) Note:. The tests were conducted at an ambient temperature of 2 C. 2. The contact resistance data are periodically measured reference values and are not values from monitoring each operation. Contact resistance values will vary according to the switching frequency and operating environment, so be sure to check operation under the actual operating conditions before use. NO contact NC contact (Average value) External magnetic field (A/m) Change rate on the basis of initial value (%) N (Average value) External magnetic field (A/m) High-frequency Relay G6Z 5
High-frequency Characteristics at 5 Ω (Isolation) Isolation (db) ample: G6Z-PE 5 Ω 5 VDC with terminating resistance (Average value (initial value)) High-frequency Characteristics at 5 Ω (Insertion Loss) Insertion loss (db).2 (Average value (initial value)) High-frequency Characteristics at 5 Ω (Return Loss, V..W.R.) Return loss (db) ample: G6Z-PE 5 Ω 5 VDC with terminating resistance Return loss (Average value (initial value))..6.5 V..W.R. 4.4.4 6 8 N.O. N.C. 5,,5 2, 2,5, Frequency (MHz) High-frequency Characteristics at 5 Ω (Isolation) Isolation (db) 4 6 8 ample: G6Z-PE-A 5 Ω 5 VDC with terminating resistance (Average value (initial value)) N.O. N.C. 5,,5 2, 2,5, Frequency (MHz) Must Operate and Must Release Time Distribution (ee note.) Number of contacts 25 5 Must operate Must release time ample: G6Z-P 5 Ω 5 VDC Number of Relays: 2.6.8 ample: G6Z-PE 5 Ω 5 VDC with terminating resistance * ubstrate loss removed. N.O. N.C. 5,,5 2, 2,5,.2.4.6 Frequency (MHz) High-frequency Characteristics at 5 Ω (Insertion Loss) Insertion loss (db) (Average value (initial value)).8 ample: G6Z-PE-A 5 Ω 5 VDC with terminating resistance N.O. * ubstrate loss removed N.C.. 5,,5 2, 2,5, Frequency (MHz) Must Operate and Must Release Bounce Time Distribution (ee note.) Number of contacts 25 5 Must operate bounce time Must release bounce time ample: G6Z-P 5 Ω 5 VDC Number of Relays: 2 4 5 V..W.R...2 6. N.O. N.C. 5,,5 2, 2,5, Frequency (MHz) High-frequency Characteristics at 5 Ω (Return Loss, V..W.R.) Return loss (db) 4 5 ample: G6Z-PE-A 5 Ω 5 VDC with terminating resistance Return loss V..W.R. (Average value (initial value))..6.5.4..2 6. N.O. N.C. 5,,5 2, 2,5, Frequency (MHz) V..W.R. 5 5. 2.. 4. 5. Time (ms).5..5 2. Time (ms) Note:. The tests were conducted at an ambient temperature of 2 C. 2. High-frequency characteristics depend upon the PCB to which the relay is mounted. Always check these characteristics, including endurance (service life), in the actual machine before use. 6 High-frequency Relay G6Z
Dimensions Note: All units are in millimeters unless otherwise indicated. PCB Through-hole Terminal Types G6Z-PE G6Z-PE-R G6ZU-PE Mounting Dimensions (Bottom View) ix,.8-dia. ix,.-dia. holes Three,.6-dia. Connections (Bottom View) G6Z-PE 8.9 6-.6 -.4.2.8 Note: Each value has a tolerance of ±. mm. G6Z-PE-A G6ZU-PE-A 8.9 9-.6 Three,.8-dia. holes.2.8 Note: Each value has a tolerance of ±. mm. Mounting Dimensions (Bottom View) Nine,.8-dia. Nine,.-dia. holes 4 4 4 4 R 2 9 8 G6Z-PE-R 2 9 8 G6ZU-PE R 2 9 8 Connections (Bottom View) G6Z-PE-A 2 9 8 G6ZU-PE-A 4 2 9 8 High-frequency Relay G6Z
G6Z-P G6ZU-P Mounting Dimensions (Bottom View) Eight,.8-dia. Eight,.-dia. holes Three,.6-dia. Connections (Bottom View) G6Z-P 4 5 8.9 8-.6 -.4.2.8 Note: Each value has a tolerance of ±. mm. G6Z-P-A G6ZU-P-A 8.9 -.6.2.8 Note: Each value has a tolerance of ±. mm. G6ZK-PE 8.9 Three,.8-dia. holes Mounting Dimensions (Bottom View) Eleven,.8-dia. Eleven,.-dia. holes Mounting Dimensions (Bottom View) even,.8-dia. even,.-dia. holes Three,.6-dia. Three,.8-dia. holes 4 4 4 4 R 2 G6ZU-P R 2 2 2 4 4 9 8 5 9 8 Connections (Bottom View) G6Z-P-A 4 5 4 G6ZU-P-A 9 8 5 R 9 8 Connections (Bottom View) 6 2 9 8 -.4 -.6.2.8 Note: Each value has a tolerance of ±. mm. 8 High-frequency Relay G6Z
G6ZK-PE-A Mounting Dimensions (Bottom View) Ten,.8-dia. Ten,.-dia. holes Connections (Bottom View) R 6 8.9 4 2 9 8 -.6.2.8 Note: Each value has a tolerance of ±. mm. G6ZK-P 8.9 -.4 9-.6.2.8 Note: Each value has a tolerance of ±. mm. G6ZK-P-A 8.9 Mounting Dimensions (Bottom View) Nine,.8-dia. Nine,.-dia. holes Three,.6-dia. Three,.8-dia. holes Connections (Bottom View) Mounting Dimensions (Bottom View) Twelve,.8-dia. Twelve,.-dia. holes. 4 4 2 4 5 R 2 4 6 9 8 Connections (Bottom View) 5 R 6 9 8 2-.6.2.8 Note: Each value has a tolerance of ±. mm. High-frequency Relay G6Z 9
urface Mount Terminal Types G6Z-FE G6ZU-FE Mounting Dimensions (Top View).8.8.8 2. Connections (Top View) G6Z-FE 4 2 9 8 8. 9..2 ix,..8 G6ZU-FE 4 2 9 8 9. 6-.6 -.4 Note : Each value has a tolerance of ±. mm. 2: The coplanarity of the terminals is. mm G6Z-FE-A G6ZU-FE-A 9-.6.2 9.6 9.6.8 Mounting Dimensions (Top View) Nine,. Note : Each value has a tolerance of ±. mm. 2: The coplanarity of the terminals is. mm G6Z-F G6ZU-F 2. 8. Mounting Dimensions (Top View).8.8 2. R Connections (Top View) G6Z-FE-A 4 2 9 8 G6ZU-FE-A 4 2 9 8 R Connections (Top View) G6Z-F 4 2 9 8 8. 4 5 9..2.8 Eight,..8 G6ZU-F 4 2 9 8 8-.6 -.4 Note : Each value has a tolerance of ±. mm. 2: The coplanarity of the terminals is. mm 9.6 R 4 5 High-frequency Relay G6Z
G6Z-F-A G6ZU-F-A Mounting Dimensions (Top View) 2. Connections (Top View) G6Z-F-A 4 2 9 8 8. 4 5 9..2.8 Eleven,. G6ZU-F-A 4 2 9 8 -.6 Note : Each value has a tolerance of ±. mm. 2: The coplanarity of the terminals is. mm G6ZK-FE 9. -.6 -.4 9.6 9.6 Mounting Dimensions (Top View).8.8 even,. Note : Each value has a tolerance of ±. mm. 2: The coplanarity of the terminals is. mm G6ZK-FE-A 9..2.8.2.8.8 2. Mounting Dimensions (Top View) Ten,. 2. 8. 8. R 4 5 Connections (Top View) 4 2 9 8 R 6 Connections (Top View) 4 2 9 8 R 6 Ten,.6 Note : Each value has a tolerance of ±. mm. 2: The coplanarity of the terminals is. mm 9.6 High-frequency Relay G6Z 2
G6ZK-F Mounting Dimensions (Top View) Connections (Top View).8.8 2. 4 2 9 8 R 4 5 6 8. 9..2.8 Nine,..8 Nine,.6 Three,.4 9.6 Note : Each value has a tolerance of ±. mm. 2: The coplanarity of the terminals is. mm G6ZK-F-A 9. Twelve,.6.2 Twelve,..8 Note : Each value has a tolerance of ±. mm. 2: The coplanarity of the terminals is. mm 9.6 Mounting Dimensions (Top View) 4 2 9 8 4 5 6 2. 8. Connections (Top View) R 22 High-frequency Relay G6Z
Packaging. Tube Packaging Reel Dimensions Relays in tube packaging are arranged so that the orientation mark of each Relay in on the left side..5±.5± Be sure not to make mistakes in Relay orientation when mounting the Relay to the PCB. 2±.5 ±.2 dia. 2±.8 dia. Operation of Relays topper (gray) topper (green) A 8 R Tube length: 5 mm (stopper not included) No. of Relays per tube: 25 2. Tape and Reel Packaging (urface mount Terminal Models) When ordering Relays in tape packing, add the prefix -TR to the model number, otherwise the Relays in stick packing will be provided. Relays per Reel: Direction of Relay Insertion Carrier tape Top tape (cover tape) Emboss tape Pulling direction Pulling direction Recommended oldering Method Temperature Conditions for IR Method When using reflow soldering, ensure that the Relay terminals and the top of the case stay below the following curve. Check that these conditions are actually satisfied before soldering the terminals. Temperature T4 T T2 T Carrier Tape Dimensions Note: The radius of the unmarked corner is. mm. Do not quench the terminals after mounting. Clean the Relay using alcohol or water no hotter than 4 C The thickness of cream solder to be applied should be between 5 and μm on OMRON s recommended PCB pattern. 2±. 5 6±. 4±..2±. 4±. Correct oldering PCB Relay.5. dia. Terminal older Land A.2.5±. 4.2±..5. 28.4±...5 R.5 Enlarged view of A Incorrect oldering Insufficient amount of solder 2±. Enlarged view of A 22.6±. 5.5±.5.6±. ±. Excessive amount of solder Check the soldering in the actual mounting conditions before use. t Preheating t2 oldering Time Measured part Terminals Preheating (T T2, t) 5 8 C, s oldering (T, t2) 2 C min, s Maximum peak (T4) 25 C Top of case --- --- 255 C High-frequency Relay G6Z 2
afety Precautions Precautions for Correct Use Please observe the following precautions to prevent failure to operate, malfunction, or undesirable effect on product performance. High-frequency Characteristics Measurement Method and Measurement ubstrate High-frequency characteristics for the G6Z are measured in the way shown below. Consult your OMRON representative for details on 5-Ω models. ubstrate for High-frequency Characteristic Compensation (5-Ω Models, E-shape or Y-shape) (Unit: mm) 4.95. 4-dia. through-hole.6-dia. through-hole Measurement Method for 5-Ω Models Network vector analyzer (Agilent Technologies) HP85D G6Z 5Ω/5Ω adapter (Agilent Technologies) 852B-4 Through-hole ubstrate (5-Ω Models, E-shape or Y-shape) (Unit: mm) 4.4.4 MD-type ubstrate (5-Ω Models, E-shape or Y-shape) (Unit: mm) 4.59 6..95 4.4.4 5-Ω terminating resistance 4-dia. through-hole.6-dia. through-hole 4-dia. through-hole 4.9 6..95 ubstrate Types Material: FR-4 glass epoxy (glass cloth impregnated with epoxy resin and copper laminated to its outer surface) Thickness:.6 mm Thickness of copper plating:8 μm Note:. The compensation substrate is used when measuring the Relay s insertion loss. The insertion loss is obtained by subtracting the measured value for the compensation substrate from the measured value with the Relay mounted to the high-frequency measurement substrate. Note: 2. For convenience, the diagrams of the high-frequency measurement substrates given here apply both to models with an E-shape terminal structure and to models with a Y-shape terminal structure. Note:. Be sure to mount a standoff tightly to the through-hole substrate. Note: 4. Use measuring devices, connectors, and substrates that are appropriate for 5 Ω and 5 Ω respectively. Note: 5. Ensure that there is no pattern under the Relay. Otherwise, the impedance may be adversely affected and the Relay may not be able to attain its full characteristics. Handling Do not use the Relay if it has been dropped. Dropping the Relay may adversely affect its functionality. Protect the Relay from direct sunlight and keep the Relay under normal temperature, humidity, and pressure. Flow oldering older: JI Z282, H6A oldering temperature: Approx. 25 C (26 C if the DW method is used) oldering time: Approx. 5 s (approx. 2 s for the first time and approx. s for the second time if the DW method is used) Be sure to make a molten solder level adjustment so that the solder will not overflow on the PCB..6-dia. through-hole 24 High-frequency Relay G6Z
Claw ecuring Force During Automatic Mounting During automatic insertion of Relays, be sure to set the securing force of each claw to the following so that the Relay s characteristics will be maintained. A B Direction A: 4.9 N Direction B: 4.9 N Direction C: 4.9 N ecure the claws to the shaded area. Do not attach them to the center area or to only part of the Relay. Latching Relay Mounting Make sure that the vibration or shock that is generated from other devices, such as Relays, on the same panel or substrate and imposed on the Latching Relay does not exceed the rated value, otherwise the set/reset status of the Latching Relay may be changed. The Latching Relay is reset before shipping. If excessive vibration or shock is imposed, however, the Latching Relay may be set accidentally. Be sure to apply a reset signal before use. Coating Do not use silicone coating to coat the Relay when it is mounted to the PCB. Do not wash the PCB after the Relay is mounted using detergent containing silicone. Otherwise, the detergent may remain on the surface of the Relay. High-frequency Relay G6Z 25
All sales are subject to Omron Electronic Components LLC standard terms and conditions of sale, which can be found at http://www.components.omron.com/components/web/webfiles.nsf/sales_terms.html ALL DIMENION HOWN ARE IN MILLIMETER. To convert millimeters into inches, multiply by.9. To convert grams into ounces, multiply by.52. OMRON ELECTRONIC COMPONENT LLC 55 E. Commerce Drive, uite B chaumburg, IL 6 84-882-2288 Cat. No. X-E-b 9/ pecifications subject to change without notice OMRON ON-LINE Global - http://www.omron.com UA - http://www.components.omron.com Printed in UA High-frequency Relay G6Z