JAJSPV4 データシート

JAJSPV4C February 2023 – March 2024 UCC14341-Q1

PRODUCTION DATA

パッケージ・オプション

メカニカル・データ（パッケージ｜ピン）

DWN|36
- MPSS132

サーマルパッド・メカニカル・データ

発注情報

jajspv4c_oa

6.10 Typical Characteristics

The maximum recommended average power safe operating area (SOA) at each V_IN is determined by the lower value of the 1.5W limit (dotted line) and the corresponding thermal derating curve (solid line) at that input voltage. Ambient temperatures higher than 125^oC is not recommended. The thermal derating power is acquired with an evaluation board similar to the EVM shown in the Layout Example section. T_shut represents the primary-side over-temperature shutdown rising threshold. As shown in the Electrical Characteristics table, the typical T_shut value is 160^oC, and minimal T_shut value is 150^oC. The SOA derating curve with both T_shut = 160^oC and 150^oC are provided below. The SOA curves under four common VDD-VEE settings, 15V, 18V, 22V, and 25V are characterized. In each SOA curve, the input voltage is swept from 9V to 18V. To represent a worst-case condition with T_shut = 150^oC, the test is done in a shieded box to block circulating air in the thermal chamber.

Figure 6-2 SOA Derating Curves: V_VDD-VEE = 15V, V_COM-VEE = 5V, T_shut=160^oC, No Load on V_COM-VEE

Figure 6-4 SOA Derating Curves: V_VDD-VEE = 22V, V_COM-VEE = 4V, T_shut=160^oC, No Load on V_COM-VEE

Figure 6-6 SOA Derating Curves: V_VDD-VEE = 22V, V_COM-VEE = 4V, T_shut=150^oC, No Load on V_COM-VEE, tested in a shielded box.

Figure 6-8 Shutdown: V_IN = 15V, V_VDD-VEE = 22V, V_COM-VEE = 4V, I_VDD-VEE = 68mA, No Load on V_COM-VEE. Time Scale: 2ms/div.

Figure 6-10 V_VDD-VEE Load Regulation: V_IN = 13.5V, V_VDD-VEE = 22V, V_COM-VEE = 4V

Figure 6-12 V_VDD-VEE Load Regulation: V_IN = 16.5V, V_VDD-VEE = 22V, V_COM-VEE = 4V

Figure 6-14 V_COM-VEE Load Regulation: V_IN = 13.5V, V_VDD-VEE = 22V, V_COM-VEE = 4V

Figure 6-16 V_COM-VEE Load Regulation: V_IN = 16.5V, V_VDD-VEE = 22V, V_COM-VEE = 4V

Figure 6-18 Efficiency vs. Load on V_VDD-VEE: V_IN = 13.5V, V_VDD-VEE = 22V, V_COM-VEE = 4V, No Load on V_COM-VEE

Figure 6-20 Efficiency vs. Load on V_VDD-VEE: V_IN = 16.5V, V_VDD-VEE = 22V, V_COM-VEE = 4V, No Load on V_COM-VEE

Figure 6-22 Input Current vs. Load on V_VDD-VEE: V_IN = 13.5V, V_VDD-VEE = 22V, V_COM-VEE = 4V, No Load on V_COM-VEE

Figure 6-24 Input Current vs. Load on V_VDD-VEE: V_IN = 16.5V, V_VDD-VEE = 22V, V_COM-VEE = 4V, No Load on V_COM-VEE

Figure 6-26 UCC14341B-Q1 SOA Derating Curves: V_VDD-VEE = 15V, V_COM-VEE = 5V, T_shut=160^oC, No Load on V_COM-VEE

Figure 6-28 UCC14341B-Q1 V_VDD-VEE Load Regulation: T_AMBIENT = 25^oC, V_VDD-VEE = 15V, V_COM-VEE = 4V

Figure 6-30 UCC14341B-Q1 Efficiency vs. Load on V_VDD-VEE: T_AMBIENT = -40^oC, V_VDD-VEE = 15V, V_COM-VEE = 4V, No Load on V_COM-VEE

Figure 6-32 UCC14341B-Q1 Efficiency vs. Load on V_VDD-VEE: T_AMBIENT = 85^oC, V_VDD-VEE = 15V, V_COM-VEE = 4V, No Load on V_COM-VEE

Figure 6-3 SOA Derating Curves: V_VDD-VEE = 18V, V_COM-VEE = 3V, T_shut=160^oC, No Load on V_COM-VEE

Figure 6-5 SOA Derating Curves: V_VDD-VEE = 25V, V_COM-VEE = 5V, T_shut=160^oC, No Load on V_COM-VEE

Figure 6-7 Start-up: V_IN = 15V, V_VDD-VEE = 22V, V_COM-VEE = 4V, I_VDD-VEE = 68mA, No Load on V_COM-VEE. Time Scale: 1ms/div.

Figure 6-9 Load Transient Response: Between No Load and 1.5W, V_IN = 15V, V_VDD-VEE = 22V, V_COM-VEE = 4V

Figure 6-11 V_VDD-VEE Load Regulation: V_IN = 15V, V_VDD-VEE = 22V, V_COM-VEE = 4V

Figure 6-13 V_VDD-VEE Load Regulation: V_IN = 18V, V_VDD-VEE = 22V, V_COM-VEE = 4V

Figure 6-15 V_COM-VEE Load Regulation: V_IN = 15V, V_VDD-VEE = 22V, V_COM-VEE = 4V

Figure 6-17 V_COM-VEE Load Regulation: V_IN = 18V, V_VDD-VEE = 22V, V_COM-VEE = 4V

Figure 6-19 Efficiency vs. Load on V_VDD-VEE: V_IN = 15V, V_VDD-VEE = 22V, V_COM-VEE = 4V, No Load on V_COM-VEE

Figure 6-21 Efficiency vs. Load on V_VDD-VEE: V_IN = 18V, V_VDD-VEE = 22V, V_COM-VEE = 4V, No Load on V_COM-VEE

Figure 6-23 Input Current vs. Load on V_VDD-VEE: V_IN = 15V, V_VDD-VEE = 22V, V_COM-VEE = 4V, No Load on V_COM-VEE

Figure 6-25 Input Current vs. Load on V_VDD-VEE: V_IN = 18V, V_VDD-VEE = 22V, V_COM-VEE = 4V, No Load on V_COM-VEE

Figure 6-27 UCC14341B-Q1 V_VDD-VEE Load Regulation: T_AMBIENT = -40^oC, V_VDD-VEE = 15V, V_COM-VEE = 4V

Figure 6-29 UCC14341B-Q1 V_VDD-VEE Load Regulation: T_AMBIENT = 85^oC, V_VDD-VEE = 15V, V_COM-VEE = 4V

Figure 6-31 UCC14341B-Q1 Efficiency vs. Load on V_VDD-VEE: T_AMBIENT = 25^oC, V_VDD-VEE = 15V, V_COM-VEE = 4V, No Load on V_COM-VEE