SM6610 series CMOS Monolithic Analog Output Temperature Sensor IC OVERVIEW The SM6610 series are high-accuracy analog output temperature sensor ICs in ultra-small packages. They are implemented using CMOS for low-voltage operation and low-current consumption. They feature a powerdown function whereby the device operates intermittently to further reduce current consumption. FEATURES ■ ■ ■ ■ High linearity: ± 0.5% typ. (Ta = – 20 to 80°C) Operating temperature range: – 40 to 100°C (VDD ≥ 2.7V) Maximum output current load: ± 250µA Output reference: VSS ■ ■ ■ ■ ■ Low current consumption: 5.5µA typ. (Ta = 25°C) Low stand-by current: 0.5µA max. Very small plastic package: SC82AB Power down function Molybdenum-gate CMOS Process PINOUT PACKAGE DIMENSIONS (Top view) (Unit: mm) + 0.2 2.0 − 0.1 0.3 0.3 + 0.1 0.125 − 0.05 4 OUT VSS 2 3 PDN 0.3 2.1 ± 0.3 + 0.2 1.25 − 0.1 VDD 1 0.4 0.3 0.15 0.1 0.9 ± 0.1 0 to 0.1 1.3 ± 0.2 + 0.1 0.4 − 0.05 + 0.1 0.3 − 0.05 0.10 M ORDERING INFORMATION Device Output center voltage [V] (Ta = 25°C) Temperature coefficient [mV/°C] Operating voltage [V] Accuracy [°C] SM6610AH 1.930 – 10.7 4.0 to 5.5 ± 5.0 SM6610BH 1.450 – 8.2 2.4 to 5.5 ± 5.0 SM6610LH 1.930 – 10.7 4.0 to 5.5 ± 3.0 SM6610MH 1.450 – 8.2 2.4 to 5.5 ± 3.0 Package SC82AB NIPPON PRECISION CIRCUITS INC.—1 SM6610 series BLOCK DIAGRAM VDD Constant current source − Amplifier OUT + Temperature sensor PDN VSS PIN DESCRIPTION Number Name Description 1 VDD Positive power supply 2 VSS Ground 3 PDN1 Power down control. Power down when LOW. 4 OUT Sensor output 1. Connect PDN to VDD when the power down function is not used. NIPPON PRECISION CIRCUITS INC.—2 SM6610 series SPECIFICATIONS Absolute Maximum Ratings VSS = 0V Parameter Symbol Condition Rating Unit Supply voltage range VDD − 0.5 to 7.0 V Input voltage range VIN − 0.5 to VDD + 0.5 V Output voltage range VOUT − 0.5 to VDD + 0.5 V Storage temperature range Tstg − 55 to 125 °C Power dissipation PD 10 mW Rating Unit AH, LH version 4.0 to 5.5 V BH, MH version 2.4 to 5.5 V AH, LH version − 40 to 100 °C VDD = 2.4 to 2.7V − 20 to 100 °C VDD = 2.7 to 5.5V − 40 to 100 °C Recommended Operating Conditions VSS = 0V Parameter Supply voltage range Operating temperature range Symbol VDD Topr Condition BH, MH version NIPPON PRECISION CIRCUITS INC.—3 SM6610 series DC Characteristics VDD = 5.0 V, VSS = 0 V, Ta = – 40 to 100 °C unless otherwise noted. Rating Parameter Current consumption Symbol Condition Unit min typ max – 5.5 10.0 µA 2.456 2.509 2.563 V 1.877 1.930 1.984 V Ta = + 100 °C 1.065 1.118 1.172 V Ta = − 30 °C 1.850 1.891 1.932 V 1.409 1.450 1.491 V Ta = + 100 °C 0.784 0.825 0.866 V Ta = − 30 °C 2.477 2.509 2.541 V 1.898 1.930 1.962 V Ta = + 100 °C 1.086 1.118 1.150 V Ta = − 30 °C 1.867 1.891 1.915 V 1.425 1.450 1.475 V 0.801 0.825 0.849 V AH, LH version – 11.1 − 10.7 – 10.3 mV/°C BH, MH version – 8.5 − 8.2 – 7.9 mV/°C – ± 0.5 – % – – 100 pF No load, Ta = + 25 °C IDD Ta = − 30 °C Ta = + 25 °C AH version Ta = + 25 °C Output voltage VOUT BH version Ta = + 25 °C LH version Ta = + 25 °C MH version Ta = + 100 °C Temperature coefficient1 TC Ta = − 30 to + 100 °C Linearity2 NL Ta = − 20 to + 80 °C Maximum capacitive load CL Maximum output current load IL Start up time PDN Input voltage VDD = 2.4V BH, MH version – – ± 50 µA VDD = 4.5V All versions – – ± 250 µA AH, LH version – – 300 µs BH, MH version – – 200 µs VIH VDD − 0.3 – – V VIL – – VSS + 0.3 V tD CL = 100pF 1. Temperature coefficient: TC = (VOUT (@100°C) − VOUT (@− 30°C))/130 2. Linearity: NL = (a/b) × 100 a: Maximum deviation between measured and approximate value in the range of – 20 °C to + 80°C. b: Measured value difference between the values at – 20 °C and + 80°C. VTEMP(V) a V (−20 C) a b Measured value Approximate value a −20 C 0C 80 C V (80 C) Ta NIPPON PRECISION CIRCUITS INC.—4 SM6610 series TYPCAL PERFORMANCE CHARACTERISTICS (Reference value) SM6610BH, MH 3.00 3.00 2.50 2.50 2.00 2.00 VOUT [V] VOUT [V] SM6610AH, LH 1.50 1.00 1.50 1.00 0.50 0.50 0.00 -60 -40 -20 0 20 40 Ta [°C] 60 80 100 0.00 -60 120 1.920 1.450 1.915 1.445 1.910 1.440 1.905 1.430 1.895 1.425 0 500 1000 0 20 40 Ta [°C] 60 80 100 120 1.435 1.900 1.890 -500 -20 Figure 4. Temperature vs. Output voltage VOUT [V] VOUT [V] Figure 1. Temperature vs. Output voltage -40 1500 1.420 -500 ILoad [µA] 0 500 1000 1500 ILoad [µA] Figure 2. Load current vs. Output voltage (Ta = 25°C, VDD = 4.0V) Figure 5. Load current vs. Output voltage (Ta = 25°C, VDD = 2.4V) PDN PDN 2.0V 2.0V GND GND VOUT VOUT 1.0V 1.0V GND GND 50µs Figure 3. PDN start up response (Ta = 25°C, VDD = 4.0V, CL = 100pF) 50µs Figure 6. PDN start up response (Ta = 25°C, VDD = 2.4V, CL = 100pF) NIPPON PRECISION CIRCUITS INC.—5 SM6610 series TEMPERATURE ACCURACY, TEMPERATURE COEFFICIENT, AND LINEARITY The SM6610 temperature coefficient is determined by the physical constants and the temperature of the circuit structure used. It does not depend on the variation between devices due to manufacturing processes. The temperature coefficient range from minimum to maximum is thus not caused by solid-state variations, but by the temperature. The temperature vs. output voltage characteristic is not linear. The temperature coefficient is small at low temperatures (gentle gradient) and increases as the temperature gets higher (steep gradient). The temperature vs. output voltage characteristic curve shape is roughly fixed, however, the characteristic does change slightly due to the temperature accuracy of the device. The SM6610AH/BH have an accuracy of ± 5°C, and the SM6610LH/MH have an accuracy of ± 3°C. The curve for the SM6610AH is shown below. VOUT[V] Tc max. (−10.3mV/ C) 2.563 2.509 2.456 Temperature coefficient Tc typ. (−10.7mV/ C) 1.984 1.930 1.877 Curve is roughly constant, with slight variation due to manufacutring process (temperature accuracy) Tc min. (−11.1mV/ C) Output voltage(max.) 1.172 1.118 1.065 Output voltage(typ.) Output voltage(min.) −30 C 20 C 25 C 30 C 100 C Temperature NIPPON PRECISION CIRCUITS INC.—6 SM6610 series Please pay your attention to the following points at time of using the products shown in this document. The products shown in this document (hereinafter “Products”) are not intended to be used for the apparatus that exerts harmful influence on human lives due to the defects, failure or malfunction of the Products. Customers are requested to obtain prior written agreement for such use from NIPPON PRECISION CIRCUITS INC. (hereinafter “NPC”). Customers shall be solely responsible for, and indemnify and hold NPC free and harmless from, any and all claims, damages, losses, expenses or lawsuits, due to such use without such agreement. NPC reserves the right to change the specifications of the Products in order to improve the characteristic or reliability thereof. NPC makes no claim or warranty that the contents described in this document dose not infringe any intellectual property right or other similar right owned by third parties. Therefore, NPC shall not be responsible for such problems, even if the use is in accordance with the descriptions provided in this document. Any descriptions including applications, circuits, and the parameters of the Products in this document are for reference to use the Products, and shall not be guaranteed free from defect, inapplicability to the design for the mass-production products without further testing or modification. Customers are requested not to export or re-export, directly or indirectly, the Products to any country or any entity not in compliance with or in violation of the national export administration laws, treaties, orders and regulations. Customers are requested appropriately take steps to obtain required permissions or approvals from appropriate government agencies. NIPPON PRECISION CIRCUITS INC. 4-3, Fukuzumi 2-chome, Koto-ku, Tokyo 135-8430, Japan Telephone: +81-3-3642-6661 Facsimile: +81-3-3642-6698 http://www.npc.co.jp/ Email: [email protected] NC9919CE 2003.04 NIPPON PRECISION CIRCUITS INC.—7