The CXEP2338A/CXEP2338B integrate our Single Converter Technology with a 22-bit delta sigma ADC a customizable 32-bit computation engine (CE) for core metrology functions as well as a user-program

首页 > Products > MCU Memory ADC Clock > MCU > General Purpose MCU >The CXEP2338A/CXEP2338B integrate our Single Converter Technology with a 22-bit delta sigma ADC a customizable 32-bit computation engine (CE) for core metrology functions as well as a user-program

The CXEP2338A/CXEP2338B metrology processors are based on Maxim Integrated’s 4th-generation metering architecture supporting the CXEP2338A CXEP2338B series of isolated current sensing products that offer drastic reduction in component count, immunity to magnetic tampering, and unparalleled reliability. The CXEP2338A/CXEP2338B integrate our Single Converter Technology with a 22-bit delta sigma ADC, a customizable 32-bit computation engine (CE) for core metrology functions, as well as a user-programmable 8051-compatible application processor (MPU) core with 64KB flash and 5KB RAM An external host processor can access metrology functions directly through the SPI interface

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Product introduction

The CXEP2338A/CXEP2338B metrology processors are based on Maxim Integrated’s 4th-generation metering architecture supporting the CXEP2338A CXEP2338B series of isolated current sensing products that offer drastic reduction in component count, immunity to magnetic tampering, and unparalleled reliability. The CXEP2338A/CXEP2338B integrate our Single Converter Technology with a 22-bit delta sigma ADC, a customizable 32-bit computation engine (CE) for core metrology functions, as well as a user-programmable 8051-compatible application processor (MPU) core with 64KB flash and 5KB RAM An external host processor can access metrology functions directly through the SPI interface, or alternatively through the embedded MPU core in applications requiring metrology data capture, storage, and preprocessing within the metrology subsystem. In addition, the devices integrate an RTC, DIO, and UART. A complete array of ICE and development tools, programming libraries, and reference designs enable rapid development and certification of meters that meet all ANSI and IEC electricity metering standards worldwide The CXEP2338A/CXEP2338B operate over the industrial temperature range and come in a 64-pin lead(Pb)-free package.

产品特点返回TOPcuV嘉泰姆

SoC Integration and Unique Isolation Technique Reduces BOM Cost Without Sacrificing PerformancecuV嘉泰姆

0.1% Typical Accuracy Over 2000:1 Current RangecuV嘉泰姆

Exceeds IEC 62053/ANSI C12.20 StandardscuV嘉泰姆

Four-Quadrant MeteringcuV嘉泰姆

46-64Hz Line Frequency Range with the Same CalibrationcuV嘉泰姆

Phase Compensation (±10°)cuV嘉泰姆

Independent 32-Bit Compute EnginecuV嘉泰姆

64KB Flash, 5KB RAMcuV嘉泰姆

Built-In Flash SecuritycuV嘉泰姆

SPI Interface to Host with Flash Program CapabilitycuV嘉泰姆

Up to Four Pulse Outputs with Pulse CountcuV嘉泰姆

8-Bit MPU (80515), Up to 5 MIPS (Optional Use)cuV嘉泰姆

Full-Speed MPU Clock in Brownout ModecuV嘉泰姆

Up to 29 Multifunction DIO PinscuV嘉泰姆

Hardware Watchdog Timer (WDT)cuV嘉泰姆

UART for AMR or Other Communication DutiescuV嘉泰姆

I²C/EEPROM InterfacecuV嘉泰姆

Innovative Isolation Technology (Requires Companion CXEP2338A CXEP2338B Sensor, also from Maxim Integrated) Eliminates Current TransformerscuV嘉泰姆

Four Current Sensor Inputs with Selectable Differential ModecuV嘉泰姆

Selectable Gain of 1 or 8 for One Current Input to Support Neutral Current ShuntcuV嘉泰姆

High-Speed Wh/VARh Pulse Outputs with Programmable WidthcuV嘉泰姆

Digital Temperature Compensation Improves System PerformancecuV嘉泰姆

Metrology CompensationcuV嘉泰姆

Accurate RTC for TOU Functions with Automatic Temperature Compensation for Crystal in All Power ModescuV嘉泰姆

Power Management Extends Battery Life During Power OutagescuV嘉泰姆

Brownout Mode (BRN)cuV嘉泰姆

Sleep Mode (SLP)cuV嘉泰姆

Two Battery-Backup Modes:cuV嘉泰姆

Wake-Up on Pin Events and Wake-On TimercuV嘉泰姆

1μA in Sleep ModecuV嘉泰姆

应用范围返回TOPcuV嘉泰姆

Three-Phase Residential, Commercial, and Industrial Energy MeterscuV嘉泰姆

技术规格书（产品PDF) 返回TOP cuV嘉泰姆

需要详细的PDF规格书请扫一扫微信联系我们，还可以获得免费样品以及技术支持！cuV嘉泰姆

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Electricity Metering ICscuV嘉泰姆
Part NumbercuV嘉泰姆	PhasecuV嘉泰姆	Internal cuV嘉泰姆 Flash(KB)cuV嘉泰姆	Internal cuV嘉泰姆 RAM(KB)cuV嘉泰姆	Analog InputcuV嘉泰姆	Sensor Inputs (Current+Voltage)cuV嘉泰姆	MCU MIPScuV嘉泰姆	RTCcuV嘉泰姆	LCD DrivercuV嘉泰姆 Pixels(max)cuV嘉泰姆	GPIOcuV嘉泰姆	UARTscuV嘉泰姆
CXEP2324cuV嘉泰姆	3PcuV嘉泰姆
CXEP2325cuV嘉泰姆	3PcuV嘉泰姆
CXEP2326cuV嘉泰姆	1PcuV嘉泰姆
CXEP2327cuV嘉泰姆	3PcuV嘉泰姆
CXEP2328cuV嘉泰姆	1PcuV嘉泰姆	64cuV嘉泰姆	7cuV嘉泰姆	SingleendcuV嘉泰姆	2SE + 1cuV嘉泰姆	5cuV嘉泰姆	YescuV嘉泰姆	128 (32x4)cuV嘉泰姆	12cuV嘉泰姆	2cuV嘉泰姆
CXEP2328AcuV嘉泰姆	1PcuV嘉泰姆	64cuV嘉泰姆	7cuV嘉泰姆	SingleendcuV嘉泰姆	2SE + 1cuV嘉泰姆	5cuV嘉泰姆	YescuV嘉泰姆	128 (32x4)cuV嘉泰姆	12cuV嘉泰姆	2cuV嘉泰姆
CXEP2329cuV嘉泰姆	3PcuV嘉泰姆	64cuV嘉泰姆	7cuV嘉泰姆	SingleendcuV嘉泰姆	3SE + 3cuV嘉泰姆	5cuV嘉泰姆	YescuV嘉泰姆	168 (42x4)cuV嘉泰姆	22cuV嘉泰姆	2cuV嘉泰姆
CXEP2329AcuV嘉泰姆	3PcuV嘉泰姆	64cuV嘉泰姆	7cuV嘉泰姆	SingleendcuV嘉泰姆	3SE + 3cuV嘉泰姆	5cuV嘉泰姆	YescuV嘉泰姆	168 (42x4)cuV嘉泰姆	22cuV嘉泰姆	2cuV嘉泰姆
CXEP2330cuV嘉泰姆	3PcuV嘉泰姆	64cuV嘉泰姆	7cuV嘉泰姆	SingleendcuV嘉泰姆	3SE + 3cuV嘉泰姆	5cuV嘉泰姆	YescuV嘉泰姆		8cuV嘉泰姆	1cuV嘉泰姆
CXEP2331AcuV嘉泰姆	1P/2PcuV嘉泰姆	128cuV嘉泰姆	4cuV嘉泰姆	SingleendcuV嘉泰姆	2SE + 2cuV嘉泰姆	10cuV嘉泰姆	YescuV嘉泰姆	156 (39x4)cuV嘉泰姆	22cuV嘉泰姆	2cuV嘉泰姆
CXEP2331BcuV嘉泰姆	1P/2PcuV嘉泰姆	256cuV嘉泰姆	4cuV嘉泰姆	SingleendcuV嘉泰姆	2SE + 2cuV嘉泰姆	10cuV嘉泰姆	YescuV嘉泰姆	156 (39x4)cuV嘉泰姆	22cuV嘉泰姆	2cuV嘉泰姆
CXEP2332AcuV嘉泰姆	1P/2PcuV嘉泰姆	128cuV嘉泰姆	4cuV嘉泰姆	DifferentialcuV嘉泰姆	2D + 2cuV嘉泰姆	10cuV嘉泰姆	YescuV嘉泰姆	268 (67x4)cuV嘉泰姆	43cuV嘉泰姆	2cuV嘉泰姆
CXEP2332BcuV嘉泰姆	1P/2PcuV嘉泰姆	256cuV嘉泰姆	4cuV嘉泰姆	DifferentialcuV嘉泰姆	2D + 2cuV嘉泰姆	10cuV嘉泰姆	YescuV嘉泰姆	268 (67x4)cuV嘉泰姆	43cuV嘉泰姆	2cuV嘉泰姆
CXEP2333AcuV嘉泰姆	3PcuV嘉泰姆	128cuV嘉泰姆	4cuV嘉泰姆	DifferentialcuV嘉泰姆	4D + 3cuV嘉泰姆	10cuV嘉泰姆	YescuV嘉泰姆	228 (57x4)cuV嘉泰姆	39cuV嘉泰姆	2cuV嘉泰姆
CXEP2333BcuV嘉泰姆	3PcuV嘉泰姆	128cuV嘉泰姆	4cuV嘉泰姆	DifferentialcuV嘉泰姆	4D + 3cuV嘉泰姆	10cuV嘉泰姆	YescuV嘉泰姆	228 (57x4)cuV嘉泰姆	39cuV嘉泰姆	2cuV嘉泰姆
CXEP2334AcuV嘉泰姆	3PcuV嘉泰姆	128cuV嘉泰姆	4cuV嘉泰姆	DifferentialcuV嘉泰姆	4D + 3cuV嘉泰姆	10cuV嘉泰姆	YescuV嘉泰姆	300 (75x4)cuV嘉泰姆	52cuV嘉泰姆	2cuV嘉泰姆
CXEP2334BcuV嘉泰姆	3PcuV嘉泰姆	256cuV嘉泰姆	4cuV嘉泰姆	DifferentialcuV嘉泰姆	4D + 3cuV嘉泰姆	10cuV嘉泰姆	YescuV嘉泰姆	300 (75x4)cuV嘉泰姆	52cuV嘉泰姆	2cuV嘉泰姆
CXEP2335AcuV嘉泰姆	1PcuV嘉泰姆	32cuV嘉泰姆	3cuV嘉泰姆	DifferentialcuV嘉泰姆	2D + 1cuV嘉泰姆	5cuV嘉泰姆	YescuV嘉泰姆	222 (37x6)cuV嘉泰姆	30cuV嘉泰姆	2cuV嘉泰姆
CXEP2335BcuV嘉泰姆	1PcuV嘉泰姆	64cuV嘉泰姆	5cuV嘉泰姆	DifferentialcuV嘉泰姆	2D + 1cuV嘉泰姆	5cuV嘉泰姆	YescuV嘉泰姆	222 (37x6)cuV嘉泰姆	30cuV嘉泰姆	2cuV嘉泰姆
CXEP2335CcuV嘉泰姆	1PcuV嘉泰姆	128cuV嘉泰姆	5cuV嘉泰姆	DifferentialcuV嘉泰姆	2D + 1cuV嘉泰姆	5cuV嘉泰姆	YescuV嘉泰姆	222 (37x6)cuV嘉泰姆	30cuV嘉泰姆	2cuV嘉泰姆
CXEP2336AcuV嘉泰姆	1P/2PcuV嘉泰姆	64cuV嘉泰姆	5cuV嘉泰姆	DifferentialcuV嘉泰姆	2D + 2cuV嘉泰姆	5cuV嘉泰姆	YescuV嘉泰姆	336 (56x6)cuV嘉泰姆	51cuV嘉泰姆	2cuV嘉泰姆
CXEP2336BcuV嘉泰姆	1P/2PcuV嘉泰姆	128cuV嘉泰姆	5cuV嘉泰姆	DifferentialcuV嘉泰姆	2D + 2cuV嘉泰姆	5cuV嘉泰姆	YescuV嘉泰姆	336 (56x6)cuV嘉泰姆	51cuV嘉泰姆	2cuV嘉泰姆
CXEP2337AcuV嘉泰姆	3PcuV嘉泰姆	64cuV嘉泰姆	5cuV嘉泰姆	DifferentialcuV嘉泰姆	4D + 3cuV嘉泰姆	5cuV嘉泰姆	YescuV嘉泰姆	336 (56x6)cuV嘉泰姆	51cuV嘉泰姆	2cuV嘉泰姆
CXEP2337BcuV嘉泰姆	3PcuV嘉泰姆	128cuV嘉泰姆	5cuV嘉泰姆	DifferentialcuV嘉泰姆	4D + 3cuV嘉泰姆	5cuV嘉泰姆	YescuV嘉泰姆	336 (56x6)cuV嘉泰姆	51cuV嘉泰姆	2cuV嘉泰姆
CXEP2337CcuV嘉泰姆	3PcuV嘉泰姆	128cuV嘉泰姆	5cuV嘉泰姆	DifferentialcuV嘉泰姆	4D + 3cuV嘉泰姆	5cuV嘉泰姆	YescuV嘉泰姆	336 (56x6)cuV嘉泰姆	51cuV嘉泰姆	2cuV嘉泰姆
CXEP2337DcuV嘉泰姆	3PcuV嘉泰姆	64cuV嘉泰姆	5cuV嘉泰姆	DifferentialcuV嘉泰姆	4D + 3cuV嘉泰姆	5cuV嘉泰姆	YescuV嘉泰姆	336 (56x6)cuV嘉泰姆	51cuV嘉泰姆	2cuV嘉泰姆
CXEP2338AcuV嘉泰姆	3PcuV嘉泰姆	64cuV嘉泰姆	5cuV嘉泰姆	DifferentialcuV嘉泰姆	4D + 3cuV嘉泰姆	5cuV嘉泰姆	YescuV嘉泰姆		29cuV嘉泰姆	1cuV嘉泰姆
CXEP2338BcuV嘉泰姆	3PcuV嘉泰姆	64cuV嘉泰姆	5cuV嘉泰姆	DifferentialcuV嘉泰姆	4D + 3cuV嘉泰姆	5cuV嘉泰姆	YescuV嘉泰姆		29cuV嘉泰姆	1cuV嘉泰姆
CXEP2339cuV嘉泰姆	1PcuV嘉泰姆
CXEP2340cuV嘉泰姆	1P ,3PcuV嘉泰姆	0cuV嘉泰姆	0cuV嘉泰姆	DifferentialcuV嘉泰姆	2DcuV嘉泰姆			300(50x6)cuV嘉泰姆	70cuV嘉泰姆	0cuV嘉泰姆
CXEP2341cuV嘉泰姆	1P/2PcuV嘉泰姆	64cuV嘉泰姆	8cuV嘉泰姆	DifferentialcuV嘉泰姆	2D + 2cuV嘉泰姆	10cuV嘉泰姆	YescuV嘉泰姆	156(39x4) cuV嘉泰姆 190(38X5)cuV嘉泰姆 222(37x6)cuV嘉泰姆	39cuV嘉泰姆	3cuV嘉泰姆
CXEP2342cuV嘉泰姆	1P/2PcuV嘉泰姆	128cuV嘉泰姆	8cuV嘉泰姆	DifferentialcuV嘉泰姆	2D + 2cuV嘉泰姆	10cuV嘉泰姆	YescuV嘉泰姆

◀ Previous:CXEP2327 Isolation is provided by low-cost pulse transformers that form a bidirectional digital communication link between the CXEP2337x and the isolated sensor ICs the isolated sensor ICs offer unpre

Next▶:The CXEP2339 isolated sensor ICs enable 4th-generation CXEP2339 systems-on-chips (SoCs) to use nonisolating sensors such as resistive shunts without the need for costly and nonlinear isolation transfo

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