Multiple channels of ESD protection +8 kV contact, +15 kV air ESD protection per channel (IEC61000-4-2 standard) +15 kV of ESD protection per channel (HBM) Low loading capacitance, 3 pF typical Miniature MLP, SOIC and TSSOP package Low leakage current—ideal for battery-powered devices Consumer electronic products Cellular phones Notebook computers Desktop PCs Digital cameras and camcorders, VGA (video) port protection for desktop and portable PCs PDAs The SWDN004 is a diode array designed to provide two channels of ESD protection for electronic components or sub-systems. Each channel consists of a pair of diodes which steers the ESD current pulse either to the positive (V P ) or negative (V N ) supply. The SWDN004 will protect against ESD pulses up to 15 kV Human Body Model, and 8kV contact discharge per International Standard IEC 61000-4-2. This device is particularlywell-suited for a wide range of portable electronics (e.g. cellular phones, PDAs, notebook computers) because of its small package footprint, high ESD protection level and low loading capacitance. It is also suitable for protecting video output lines and I/O ports. |
SEMICONWELL
Integrated Passive Networks |
LOW CAPACITANCE ESD PROTECTION DIODE NETWORK SWDN004-8 |
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SHORT PRODUCT APPLICATION NOTE |
The SWDN004 is a diode array designed to provide two channels of ESD protection for electronic components or sub-systems. Each channel consists of a pair of diodes which steers the ESD current pulse either to the positive (V P ) or negative (V N ) supply. The SWDN004 will protect against ESD pulses up to 15 kV Human Body Model, and 8kV contact discharge per International Standard IEC 61000-4-2. This device is particularlywell-suited for a wide range of portable electronics (e.g. cellular phones, PDAs, notebook computers) because of its small package footprint, high ESD protection level and low loading capacitance. It is also suitable for protecting video output lines and I/O ports. |
SEMICONDUCTOR-THIN FILM MANUFACTURING PROCESS DESCRIPTION |
Integrated passive networks are manufactured using advanced thin film technologies including ultra -stable and self passivating Tantalum Nitride resistors, gold interconnect metallization and reliable MNOS capacitors to achieve excellent uniformity, performance and reliability. Thin film resistor technology is the preferred solution for all applications that require low noise, long term stability and excellent performance at very high frequencies. Semiconwell employs proprietary thin film technologies for deposition of a wide range of sheet resistance films from 1W/sq to 10,000 W/sq. All Semiconwell's products are available in die form and as KGD, known good die and are ideal for high reliability hybrid and multi chip module applications. Besides thin film resistors, Semiconwell integrates capacitors, Schottky diodes, Zener diodes and transistors. Integrated passive and active networks are manufactured using Semiconwell's in house high reliability semiconductor manufacturing processes. All semiconductor devices employ precision doping via ion implantation, silicon nitride junction passivation, platinum silicided contacts and gold interconnect metallization for best performance and reliability. MNOS capacitors and Tantalum Nitride resistors are easily integrated with Schottky diodes to provide complete standard and custom RCD solutions. In die form, these products are ideal for hybrid and multi chip module applications. In packaged form, these products are the best solution where space and weight are a concern. |
ABSOLUTE MAXIMUM RATINGS | ||
Maximum Supply Voltage | Maximum IF | Max Power dissipation |
6V | 20mA | 225mW@70°C/package |
Stresses beyond listed absolute maximum ratings may cause permanent damage to the device. |
STANDARD SPECIFICATIONS | ||
PARAMETER | VALUE | UNITS |
DC voltage at any channel input (Vsignal) | (VN-0.5) to (VP+0.5) | V |
Supply current Vp-Vn=5.5V | max 10 | µA |
Diode forward voltage VF, IF=20mA, Ta=25°C | min 0.65 max 0.95 | V |
Channel Input capacitance @1 MHz, Vp=5V, VN=0, Vin=2.5V (Note2) | min 3 max 5 | pF |
Operating Temperature (TOP) | -40 to 85 | °C |
Storage Temperature (Tstg) | -65 to +150 | °C |
ESD Protection, Peak discharge voltage at any channel input, in system (Note 3) Human Body Model, Method 3015 (Note 2,4) Contact Discharge per IEC61000-4-2 (Note 2,5) |
±15 ±8 |
kV kV |
Channel clamp voltage under ESD HBM 15kV Positive Transients Negative Transients |
VP+13 VN-13 |
V V |
Channel Leakage(0<Vin<Vdd) | typ 0.1 max. 10 | µA |
Note1: All parameters at Ta=25°C unless otherwise specified. Note2: This parameters guaranteed by characterisation. Note3: From I/O pins to VP or VN only. Vp bypassed to VN with 0.2µF ceramic capacitor . Note4: Human Body Model per MIL-STD-883, Method 3015 Cdischarge=100pF, Rdischarge=1.5kW, VP=12V, VN=0 Note5: Standard IEC-61000-4-2 with Cdischarge=150pF, Rdischarge=330W, VP=5V, VN=0 |
GENERAL DIE INFORMATION | ||||
Substrate | Thickness (mils) | Die size (mils) | Bonding pads | Backside metal |
SiO2 / Silicon | 10±2 | xx x xx ±3 | 4x4 mils, 3mm thick, 99.99% electroplated gold with a TiW barrier | Au/Si compatible with eutectic and conductive epoxy die attach. |
All Semiconwell products are available in die form for chip and wire hybrid circuits and multi chip modules applications. Typical delivery for standard die products is 4-6 weeks ARO. For Chip Scale Packaged (CSP) devices consult factory for an update on availability of certain products. |
DIODES | BONDING PADS | CAPACITORS |
TVS diodes are solid state devices designed specifically for transient suppression. Low capacitance compensation diode in series with TVS diode provides a low capacitance solution. | The bonding pads are 3µm thick, 99.99% electroplated gold with a TiW barrier that withstands 30 min at 400°C in air without loss of adhesion. | Silicon nitride dielectric, MNOS capacitors exhibit high stability, low temperature coefficients, low leakage <10nA and high BV>50V. |
DIE / PACKAGE LAYOUT | PACKAGE PIN OUT |
Vin=3,4,5,6,11,12,13,14 | |
Vss=die backside | |
Vss=1,8,9,16 | |
Vdd=2,7,10,15 |
STANDARD PRODUCTS ORDERING INFORMATION |
SW PART# | MLP micro 10 | TSSOP 14 | SOIC 14 |
SWDN004-8 | SWDN004-8-10ML | SWDN004-8-14TS | SWDN004-8-14SO |
Pin Out | CH1 | CH2 | CH3 | CH4 | CH5 | CH6 | CH7 | CH8 | VN | VP |
MLP-10 | 2 | 1 | 9 | 8 | 7 | 6 | 4 | 3 | 10 | 5 |
TSSOP
14 SOIC 14 |
2 | 3 | 4 | 5 | 9 | 10 | 11 | 12 | 7 [6,8] | 14 [1,13] |
Note: Pin numbers in square brackets are optional |
SW PART # | QUANTITY | MLP-10 | U/P($) | SOIC-14 | U/P($) | TSSOP-14 | U/P($) |
SWDN004-8 | 5,000pc | -10MLP | -14SO | -14TS | |||
SWDN004-8 | 10,000pc | -10MLP | -14SO | -14TS | |||
For custom products sold as bare tested die or known good die KGD, minimum order is 5000pc. Dice are 100% functional tested, visual inspected and shipped in antistatic waffle packs. For special die level KGD requirements, different packaging or custom configurations, contact sw_sales@semiconwell.com |
Delivery for packaged RCD standard products is 6-8 weeks ARO. Certain items may be available from stock. For standard products available from stock, there is a minimum line item order of $250.0. Inventory is periodically updated. For 2500pc or larger orders, all surface mount packaged devices are shipped in tape on reel (T/R). For smaller quantities, it may vary. Samples are available only for customers that have issued firm orders pending qualification of product in a particular application. On line Orders have to be verified, accepted and acknowledged by Semiconwell sales department in writing before, becoming non cancelable binding contracts. |
Semiconwell guarantees continuous supply and availability of any of it's standard products provided minimum order quantities are met. |
SEMICONWELL has made every effort to have this information as accurate as possible. However, no responsibility is assumed by SEMICONWELL for its use, nor for any infringements of rights of third parties which may result from its use. SEMICONWELL reserves the right to revise the content or modify its product line without prior notice. SEMICONWELL products are not authorized for and should not be used within support systems which are intended for surgical implants into the body, to support or sustain life, in aircraft, space equipment, submarine, or nuclear facility applications without the specific written consent. |
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