MX-FX605 Datasheet 2. This is static dv/dt. See Figure 5 for test circuit. Commutating dv/dt is a function of the load-driving thyristor(s) only. 3. All devices are guaranteed to trigger at an IF value less than or equal to max IFT. Therefore, recommended operating IF lies between max IFT (30 mA for MOC3020M, 15 mA for MOC3010M and MOC3021M, 10 mA for MOC3011M and MOC3022M 5 mA for MOC3012M and MOC3023M) and absolute max IF (60 mA). MX-FX605 Price (3) Indicates the dissipation at 2MHz in relation t0 200kHz. From the output voltage at OUT pin when a 150mVp-p, 200kHz sine wave is fed to IN pin, and from the output voltage at OUT pin when a 150mVp-p, 2MHz sine wave is fed to same, cal culation is made according to the following formula. Input bias is tested at 2.1V. MX-FX605 on stock| Symbol | Parameter | Test Conditions | Min | Typ. | Max | Unit | | ICES | Collector Cut-off Current (VBE = 0) | VCE = 1000 V VCE = 1000 V Tj = 125 0C | | | 1 00 500 | ccA ccA | | ICEO | Collector Cut-off Current (lB = 0) | VEC=400 V | | | 250 | ccA | | VCEO(sus) | Collector-Emitter Sustaining Voltage | lc = 100 mA l= 25 mH | 500 | | | V | | VEBO | Emitter-Base Voltage | IE=10 mA | 9 | | | V | | VCE(sat)* | Collector-Emitter Saturation Voltage | lc = 1 A lB = 0.2 A lc = 2 A lB = 0.4 A lc = 3 A lB = 0.6 A | | | O5 0.7 1.1 | V V V | | VBE(sat)* | Base-Emitter Saturation Voltage | lc = 1 A lB = 0.2 A lc = 2 A lB = 0.4 A lc = 3 A lB = 0.6 A | | | 1 1.1 1.2 | V V V | | hFE* | DC Current Gain | lc = 10 mA VCE = 5V lc = 3 A VCE = 2.5 V | 10 | 1 0 | | | | ts tf | INDUCTIVE LOAD Storage Time Fall Time | lc = 2 A IBl = 0.4 A VBE(off) = -5 V RBB = o I VCL = 250 V L = 200 ccH | | 1.2 80 | 1.9 1 60 | c(s ns | | ts tf | INDUCTIVE LOAD Storage Time Fall Time | lc = 2 A IBl = 0.4 A VBE(off) = -5V RBB = o I VCL = 250 V L = 200 ccH Tj = 125 0C | | 1.8 150 | | CS nS | | | | | | | |
| ltem | Pins | Symbol | Conditions | Min | Typ | Max | Unit | | Supply voltage 1 | VDD3 | VDDa | | 3.0 | 3.3 | 3.6 | V | | Supply voltage 2 | VDD2 | VDDb | | 3.0 | 3.3 | 3.6 | V | | Supply voltage 3 | VDDl, VDD4, VDD5 | VDDC | | 3.0 | 3.3 | 3.6 | V | | | RST, SSI, | vt+ | | 0.8VDDC | | | V | | Input voltage l*i | SCK, SEN | vt- | | | | 0.2VDDC | V | | | TESTl, TEST2, | VIH1 | | 0.7VDDC | | | V | | Input voltage 2#2 | SNCSL, SSGSL | VIL1 | | | | 0.3VDDC | V | | | | VIH2 | | 0.8VDDC | | | V | | VIL2 | | | | 0.2VDDC | V | | Input/output voltage | VRHR | VOH1 | Feed current where IOH = -1.2mA | VDDC - 0.8 | | | V | | VOL1 | Pull-in current where IOL = 2.4mA | | | 0.4 | V | | | | VOH2 | Feed current where IOH = -14.OmA | VDDa - 0.8 | | | V | | Output voltage 1 | H1H2 | VOL2 | Pull-in current where IOL = 9.6mA | | | 0.4 | V | | | | VOH3 | Feed current where IOH = -3.3mA | VDDb - 0.8 | | | V | | Output voltage 2 | RG | VOL3 | Pull-in current where IOL = 2.4mA | | | 0.4 | V | | | XSHP, XSHD, | VOH4 | Feed current where IOH = -3.3mA | VDDC - 0.8 | | | V | | Output voltage 3 | PBLK, OBCLP, CLPDM, ADCLK | VOL4 | Pull-in current where IOL = 2.4mA | | | 0.4 | V | | | | VOH5 | Feed current where IOH = -6.9mA | VDDC - 0.8 | | | V | | Output voltage 4 | CKO | VOL5 | Pull-in current where IOL = 4.8mA | | | 0.4 | V | | | | VOH6 | Feed current where IOH = -3.3mA | VDDC - 0.8 | | | V | | Output voltage 5 | MCKO | VOL6 | Pull-in current where IOL = 2.4mA | | | 0.4 | V | | | ID/EXP, | VOH7 | Feed current where IOH = -2.4mA | VDDC - 0.8 | | | V | | Output voltage 6 | WEN/FLD | VOL7 | Pull-in current where IOL = 4.8mA | | | 0.4 | V | | | | IOL | V1, V2, V3A/B, V4, V5A/B, V6 = -8.25V | 10.0 | | | mA | | Output current 1 | V1, V3A, V3B, V5A, V5B, V2, | IOM1 | V1, V2, V3A/B, V4, V5A/B, V6 = -0.25V | | | -5.0 | mA | | V4, V6 | IOM2 | V1, V3A/B, V5A/B = 0.25V | 5.0 | | | mA | | IOH | V1, V3A/B, V5A/B = 14.75V | | | -7.2 | mA | | | | IOSL | SUB=-8.25V | 5.4 | | | mA | | Output current 2 | SUB | IOSH | SUB=14.75V | | | -4.0 | mA | | | | | | | | |
|
