TF6A60 Standard Triac Symbol ○ TO-220F VDRM = 600V 2.T2 IT(RMS) = 6 A ▼▲ ○ 3.Gate ITSM = 63A 1.T1 ○ 1 2 3 Features Repetitive Peak Off-State Voltage : 600V R.M.S On-State Current ( IT(RMS)= 6 A ) ◆ High Commutation dv/dt ◆ ◆ General Description This device is fully isolated p ackage suitable for AC switching app lication, phase control application such as fan speed and temperature modulation control, lighting control and static switching relay. This device may substitute for BTA06-600, BTB06-600, BCR5AM, BCR5PM-12L, TM561S-L series. Absolute Maximum Ratings Symbol VDRM ( Tj = 25°C unless otherwise specified ) Parameter Repetitive Peak Off-State Voltage Condition Since wave, 50 to 60Hz Ratings Units 600 V IT(RMS) R.M.S On-State Current Tj = 125 °C, Full Sine wave 6.0 A ITSM Surge On-State Current One Cycle, 50Hz/60Hz, Peak, Non-Repetitive 60/63 A I2 t tp=10ms 18 A 2s Average Gate Power Dissipation Tj = 125°C 1 W IGM Peak Gate Current Tj = 125°C 2 A TJ Operating Junction Temperature - 40 ~ 125 °C Storage Temperature - 40 ~ 150 °C I2 t PG(AV) TSTG 1/6 J u l y , 2010. Rev.1 copyright @ Apollo Electron Co., Ltd. All rights reserved. TF6A60 Electrical Characteristics(Tj=25 °C unless otherwise specified) Symbol Conditions IDRM Repetitive Peak Off-State Current VD = VDRM, Single Phase, Half Wave Tj = 125 °C VTM Peak On-State Voltage ITM = 8.5A, tp=380㎲ Ratings Min. Max. --- 1.0 mA ─ ─ 1.55 V ─ ─ 25 ─ ─ 25 --- Ⅰ I -GT1 Ⅱ I -GT3 Ⅲ ─ ─ 25 V+GT1 Ⅰ ─ ─ 1.5 V-GT1 Ⅱ ─ ─ 1.5 V-GT3 Ⅲ ─ ─ 1.5 dv/dt IH Gate Trigger Current Gate Trigger Voltage VD =12 V, RL=30 Ω VD = 12 V, RL=30 Ω Unit Typ. I+GT1 VGD 2/6 Items Non-Trigger Gate Voltage TJ = 125 °C, VD =VDRM, RL=3.3kΩ 0.2 � Critical Rate of Rise Off-State Voltage TJ = 125 °C, VD=2/3 VDRM 200 Holding Current IT=0.2A � 35 mA V V V/㎲ mA TF6A60 Fig 1. Gate Characteristics Fig 2. On-State Voltage 2 10 VGM (10V) 1 On-State Current [A] PGM (5W) PG(AV) (1W) 25 ℃ 0 IGM (2A) Gate Voltage [V] 10 10 o TJ = 25 C 0 10 VGD (0.2V) -1 10 o TJ = 125 C 1 10 1 2 10 0.5 3 10 10 1.0 1.5 Gate Current [mA] 10 3.0 3.5 Allowable Case Temperature [ oC] 130 9 Power Dissipation [W] 2.5 Fig 4. On State Current vs. Allowable Case Temperature Fig 3. On State Current vs. Maximum Power Dissipation π 8 θ o θ = 180 o θ = 150 2π θ 7 θ = 120 360° 6 θ = 90 θ : Conduction Angle 5 4 o o θ = 60 o θ = 30 o 3 2 1 0 2.0 On-State Voltage [V] 0 1 2 3 4 5 6 7 120 110 θ π 2π θ 100 0 1 2 RMS On-State Current [A] o θ = 60 o θ = 90 o θ = 120 3 o o θ : Conduction Angle 90 8 360° θ = 30 θ = 150 o θ = 180 4 5 6 7 8 RMS On-State Current [A] Fig 6. Gate Trigger Voltage vs. Junction Temperature Fig 5. Surge On-State Current Rating ( Non-Repetitive ) 10 80 60 30 50Hz V _ GT3 o o 40 VGT (25 C) 60Hz 50 VGT (t C) Surge On-State Current [A] 70 1 V V + GT1 _ GT1 20 10 0 0 10 1 10 Time (cycles) 2 10 0.1 -50 0 50 100 150 o Junction Temperature [ C] 3/6 TF6A60 Fig 7. Gate Trigger Current vs. Junction Temperature Fig 8. Transient Thermal Impedance 10 o o IGT (t C) IGT (25 C) o Transient Thermal Impedance [ C/W] 10 1 I I I 0.1 -50 0 50 Junction Temperature [ C] 4/6 GT1 _ GT3 100 o + GT1 _ 150 1 -2 10 -1 10 0 10 Time (sec) 1 10 2 10 TF6A60 TO-220F Package Dimension Sym bol A B C D E F G H I J K L M N MIN 9.88 15.30 2.95 10.30 0.95 1.81 0.50 3.00 4.35 6.20 0.41 2.30 2.53 2.34 IN C H ES TYP 10.08 15.50 3.00 10.50 1.08 1.84 0.70 3.20 4.45 6.40 0.51 2.50 2.73 2.54 MAX 10.28 15.70 3.05 10.70 1.20 1.87 0.90 3.40 4.55 6.60 0.61 2.70 2.93 2.74 MILLIMETER S MIN 25.10 25.60 39.37 38.86 7.62 7.49 26.16 26.67 2.41 2.74 4.60 4.67 1.27 1.78 7.62 8.13 11.05 11.30 15.75 16.26 1.03 1.28 5.84 6.35 6.43 6.93 5.94 6.45 TYP 26.11 39.88 7.75 27.18 3.05 4.75 2.29 8.64 11.56 16.76 1.54 6.86 7.44 6.96 5/6 TF6A60 TO-220F Package Dimension, Forming Dim. mm Typ. Min. 10.4 6.18 9.55 8.4 6.05 1.26 3.17 1.87 2.57 A B C D E F G H I J K L M N O P Max. 10.6 6.44 9.81 8.66 6.15 1.36 3.43 2.13 2.83 Inch Typ. Min. 0.409 0.243 0.376 0.331 0.238 0.050 0.125 0.074 0.101 2.54 5.08 0.100 0.200 2.51 1.23 0.45 0.65 2.62 1.36 0.63 0.78 0.099 0.048 0.018 0.0025 0.103 0.054 0.025 0.031 5.0 3.7 3.2 1.5 φ φ 1 φ 2 0.197 0.146 0.126 0.059 A E F I H B φ φ1 C φ2 L G M 1 D 2 3 N O J P K 6/6 Max. 0.417 0.254 0.386 0.341 0.242 0.054 0.135 0.084 0.111 1. T1 2. T2 3. Gate